transforming-growth-factor-beta and Cardiovascular-Diseases

The most effective way to control severity and mortality rate of the novel coronavirus disease (COVID-19) is through sensitive diagnostic approaches and an appropriate treatment protocol. We aimed to identify the effect of adding corticosteroid and Tocilizumab to a standard treatment protocol in treating COVID-19 patients with chronic disease through hematological and lab biomarkers.. This study was performed retrospectively on 68 COVID-19 patients with chronic disease who were treated by different therapeutic protocols. The patients were categorized into four groups: control group represented the patients' lab results at admission before treatment protocols were applied; group 1 included patients treated with anticoagulants, Hydroxychloroquine, and antibiotics; group 2 comprised patients treated with Dexamethasone; and group 3 included patients treated with Dexamethasone and Tocilizumab.. The study paves the way into the effectiveness of combining Dexamethasone with Tocilizumab in treatment COVID-19 patients with chronic diseases.. La forma más eficaz de controlar la gravedad y la tasa de mortalidad de la enfermedad del nuevo coronavirus (COVID-19) es mediante enfoques de diagnóstico sensibles y un protocolo de tratamiento adecuado. Nuestro objetivo fue identificar el efecto de agregar corticosteroides y tocilizumab a un protocolo de tratamiento estándar en el tratamiento de pacientes con COVID-19 con enfermedad crónica a través de biomarcadores hematológicos y de laboratorio.. Este estudio se realizó de forma retrospectiva en 68 pacientes COVID-19 con enfermedad crónica que fueron tratados por diferentes protocolos terapéuticos. Los pacientes se clasificaron en cuatro grupos: el grupo de control representaba los resultados de laboratorio de los pacientes en el momento de la admisión antes de que se aplicaran los protocolos de tratamiento; el grupo 1 incluyó a pacientes tratados con anticoagulantes, hidroxicloroquina y antibióticos; el grupo 2 estaba compuesto por pacientes tratados con dexametasona; y el grupo 3 incluyó a pacientes tratados con dexametasona y tocilizumab.. El estudio allana el camino hacia la eficacia de la combinación de dexametasona con tocilizumab en el tratamiento de pacientes con COVID-19 con enfermedades crónicas.. The Child-Mother Index constitutes a potential useful risk factor indicator for statistical analyses on data after birth. The value of the Child-Mother Index based on the estimated fetal weight before birth deserves evaluation.. Six ceria supports synthesized by various synthesis methodologies were used to deposit cobalt oxide. The catalysts were thoroughly characterized, and their catalytic activity for complete methane oxidation was studied. The supports synthesized by direct calcination and precipitation with ammonia exhibited the best textural and structural properties as well as the highest degree of oxidation. The remaining supports presented poorer textural properties to be employed as catalytic supports. The cobalt deposited over the first two supports presented a good dispersion at the external surface, which induced a significant redox effect that increased the number of Co. Some studies show that children with obesity are more likely to receive a diagnosis of depression, anxiety, or attention-deficit hyperactivity disorder (ADHD). But this does not necessarily mean obesity causes these conditions. Depression, anxiety, or ADHD could cause obesity. A child's environment, including family income or their parents' mental health, could also affect a child's weight and mental health. Understanding the nature of these relationships could help scientists develop better interventions for both obesity and mental health conditions. Genetic studies may help scientists better understand the role of the environment in these conditions, but it's important to consider both the child's and their parents’ genetics in these analyses. This is because parents and children share not only genes, but also environmental conditions. For example, families that carry genetic variants associated with higher body weight might also have lower incomes, if parents have been affected by biases against heavier people in society and the workplace. Children in these families could have worse mental health because of effects of their parent’s weight, rather than their own weight. Looking at both child and adult genetics can help disentangle these processes. Hughes et al. show that a child's own body mass index, a ratio of weight and height, is not strongly associated with the child’s mental health symptoms. They analysed genetic, weight, and health survey data from about 41,000 8-year-old children and their parents. The results suggest that a child's own BMI does not have a large effect on their anxiety symptoms. There was also no clear evidence that a child's BMI affected their symptoms of depression or ADHD. These results contradict previous studies, which did not account for parental genetics. Hughes et al. suggest that, at least for eight-year-olds, factors linked with adult weight and which differ between families may be more critical to a child's mental health than a child’s own weight. For older children and adolescents, this may not be the case, and the individual’s own weight may be more important. As a result, policies designed to reduce obesity in mid-childhood are unlikely to greatly improve the mental health of children. On the other hand, policies targeting the environmental or societal factors contributing to higher body weights, bias against people with higher weights, and poor child mental health directly may be more beneficial.. The development of an efficient photocatalyst for C2 product formation from CO. Оценка антиастенического эффекта последовательной терапии левокарнитином (ЛК) и ацетилкарнитином (АЛК) пациентов с артериальной гипертензией и/или ишемической болезнью сердца (ИБС) с астеническим синдромом (АС).. В открытое сравнительное исследование были включены 120 пациентов в возрасте 54—67 лет с артериальной гипертензией и/или ИБС с АС. Пациенты 1-й группы (. У больных 1-й группы отмечено статистически значимое уменьшение различных проявлений АС. Отличия носили достоверный характер по сравнению как с исходным уровнем, так и со 2-й группой. Установлено эндотелийпротективное действие ЛК и АЛК.. Полученные результаты свидетельствуют, что у таких коморбидных пациентов использование ЛК и АЛК уменьшает выраженность проявлений АС, а установленные эндотелиотропные свойства препаратов позволяют рекомендовать их в составе комплексной персонифицированной терапии пациентов с сердечно-сосудистыми заболеваниями.. Naproxen sodium 440 mg/diphenhydramine 50 mg combination demonstrated improvement in sleep maintenance (WASO) vs. naproxen sodium 550 mg and higher efficiency in average daily pain reduction compared with the comparison groups. The treatment was well tolerated There were no serious or unexpected adverse events reported in the study.. Сравнительный анализ эффективности и безопасности новой комбинации напроксена натрия и дифенгидрамина у пациентов с неспецифическим болевым синдромом в пояснично-крестцовом отделе спины (M54.5 «Боль внизу спины») и нарушением сна (G47.0 «Нарушения засыпания и поддержания сна [бессонница]»).. Проведено проспективное многоцентровое рандомизированное открытое сравнительное в параллельных группах клиническое исследование. Пациенты были рандомизированы в 3 группы. Больные 1-й группы получали напроксен натрия (440 мг) и дифенгидрамин (50 мг), 2-й — напроксен натрия (550 мг), 3-й — парацетамол (1000 мг) и дифенгидрамин (50 мг). Исследуемые препараты пациенты принимали однократно перед сном в течение 3 дней. Все пациенты также принимали 275 мг (1 таблетка) напроксена натрия в качестве препарата фоновой терапии. Первичным критерием эффективности было общее время бодрствования после наступления сна (WASO), измеряемое методом актиграфии. Также использовались критерии оценки продолжительности и качества сна и выраженности боли.. Анализ эффективности проведен для ITT популяции (. Применение комбинации напроксена натрия (440 мг) и дифенгидрамина (50 мг) характеризовалось более выраженным поддержанием сна по сравнению с напроксеном натрия 550 мг и более высокой эффективностью в отношении снижения интенсивности боли по сравнению со 2-й и 3-й группами. Отмечена хорошая переносимость препарата, серьезных нежелательных явлений зарегистрировано не было.

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When treating diseases related primarily to tissue remodeling and fibrosis, it is desirable to regulate TGFβ concentration and modulate its biological effects. The highest cellular concentrations of TGFβ are found in platelets, with about 40% of all TGFβ found in peripheral blood plasma being secreted by them. Therefore, an understanding of the mechanisms of TGFβ secretion from platelets may be of key importance for medicine. Unfortunately, despite the finding that platelets are an important regulator of TGFβ levels, little research has been carried out into the development of platelet-directed therapies that might modulate the TGFβ-dependent processes. Nevertheless, there are some very encouraging reports suggesting that platelet TGFβ may be specifically involved in cardiovascular diseases, liver fibrosis, tumour metastasis, cerebral malaria and in the regulation of inflammatory cell functions. The purpose of this review is to briefly summarize these few, extremely encouraging reports to indicate the state of current knowledge in this topic. It also attempts to better characterize the influence of TGFβ on platelet activation and reactivity, and its shaping of the roles of blood platelets in haemostasis and thrombosis.

Topics: Blood Platelets; Cardiovascular Diseases; Hemostasis; Humans; Inflammation; Liver Cirrhosis; Malaria, Cerebral; Neoplasm Metastasis; Platelet Activation; Thrombosis; Transforming Growth Factor beta

This review will cover the signalling pathways leading to the phosphorylation of the Smad linker region independent of Smad carboxy terminal phosphorylation. Characterising Smad linker region as a signalling pathway in its own right will encourage comprehensive signalling studies to provide solutions for successful discovery and exploitation of drug targets. The review describes Smad transcription factor signalling distinct from Transforming Growth Factor (TGF)-β signalling. Novel signalling pathways represent new drug targets where these pathways are known to be involved in fibrosis, cancer and cardiovascular disease.

Topics: Animals; Cardiovascular Diseases; Fibrosis; Humans; Neoplasms; Phosphorylation; Signal Transduction; Smad2 Protein; Transforming Growth Factor beta

Topics: Age Factors; Animals; Cardiovascular Diseases; Cell Movement; Endothelial Cells; Epithelial-Mesenchymal Transition; Extracellular Matrix; Heart Valves; Leukocyte Common Antigens; Mice; Mitral Valve; Mitral Valve Insufficiency; Models, Animal; Myocardial Infarction; Neovascularization, Physiologic; Sheep; Stress, Physiological; Transforming Growth Factor beta

Genetic studies in animals and humans indicate that gene mutations that functionally perturb transforming growth factor β (TGF-β) signaling are linked to specific hereditary vascular syndromes, including Osler-Rendu-Weber disease or hereditary hemorrhagic telangiectasia and Marfan syndrome. Disturbed TGF-β signaling can also cause nonhereditary disorders like atherosclerosis and cardiac fibrosis. Accordingly, cell culture studies using endothelial cells or smooth muscle cells (SMCs), cultured alone or together in two- or three-dimensional cell culture assays, on plastic or embedded in matrix, have shown that TGF-β has a pivotal effect on endothelial and SMC proliferation, differentiation, migration, tube formation, and sprouting. Moreover, TGF-β can stimulate endothelial-to-mesenchymal transition, a process shown to be of key importance in heart valve cushion formation and in various pathological vascular processes. Here, we discuss the roles of TGF-β in vasculogenesis, angiogenesis, and lymphangiogenesis and the deregulation of TGF-β signaling in cardiovascular diseases.

Topics: Activin Receptors, Type II; Animals; Aortic Aneurysm; Atherosclerosis; Cardiovascular Diseases; Cell Communication; Endothelial Cells; Fibrosis; Humans; Hypertension, Pulmonary; Lymphangiogenesis; Myocardium; Neovascularization, Physiologic; Signal Transduction; Telangiectasia, Hereditary Hemorrhagic; Transforming Growth Factor beta

The latent transforming growth factor (TGF) β binding proteins (LTBP) are crucial mediators of TGFβ function, as they control growth factor secretion, matrix deposition, presentation and activation. Deficiencies in specific LTBP isoforms yield discrete phenotypes representing defects in bone, lung and cardiovascular development mediated by loss of TGFβ signaling. Additional phenotypes represent loss of unique TGFβ-independent features of LTBP effects on elastogenesis and microfibril assembly. Thus, the LTBPs act as sensors for the regulation of both growth factor activity and matrix function.

Topics: Animals; Bone Diseases; Cardiovascular Diseases; Extracellular Matrix; Humans; Latent TGF-beta Binding Proteins; Lung Diseases; Signal Transduction; Transforming Growth Factor beta

It is now well established that the NO-sGC-cGMP signal transduction system mediates many different physiological functions in almost every conceivable organ system; this has been best characterized in the cardiovascular system where NO-driven cGMP production exerts a plethora of cytoprotective and anti-atherogenic effects, including dilatation, inhibition of vascular smooth muscle proliferation, blockade of leukocyte recruitment, and anti-platelet activity. Accordingly, dysfunctional NO-sGC-cGMP mediated signaling is perceived as the underlying pathophysiological cause of many cardiovascular and non-cardiovascular diseases. Due to the fundamental role of sGC in the signaling pathways triggered by NO, novel sGC 'modulators' have been identified that directly stimulate both heme-containing as well as heme-free sGC, the so-called 'sGC activators' and 'sGC stimulators', respectively. The beneficial effects of this new family of sGC 'modulators' extend beyond vasodilation, and their potential in other cardiovascular diseases aside from pulmonary arterial hypertension is promising. In animal models of hypertension and heart failure, reno-protective effects, attenuated cardiac fibrosis, and attenuated hypertrophy independent of hemodynamic effects have been shown. During recent years it has become obvious that cGMP increase by sGC modulators exerts direct antifibrotic efficacy in various organs as well as the skin. This review will provide an overview of the preclinical in vitro and in vivo studies for different fibrotic disorders including chronic renal, cardiac, liver, and lung fibrosis, as well as sclerosis and wound healing. Moreover, this review provides evidence for a new mode of action of sGC 'modulators' and its implication for clinical investigations in the treatment of fibrotic disorders such as pulmonary fibrosis and skin fibrosis.

Topics: Animals; Cardiovascular Diseases; Cell Differentiation; Cell Proliferation; Cyclic GMP; Enzyme Activators; Fibroblasts; Fibrosis; Humans; Myofibroblasts; Nitric Oxide; Signal Transduction; Soluble Guanylyl Cyclase; Transforming Growth Factor beta

In the heart and other organs, endothelial-mesenchymal transition (EndMT) has emerged as an important developmental process that involves coordinated migration, differentiation, and proliferation of the endothelium. In multiple disease states including cancer angiogenesis and cardiovascular disease, the processes that regulate EndMT are recapitulated, albeit in an uncoordinated and dysregulated manner. Members of the transforming growth factor beta (TGFβ) superfamily are well known to impart cellular plasticity during EndMT by the timely activation (or repression) of transcription factors and miRNAs in addition to epigenetic regulation of gene expression. On the other hand, fibroblast growth factors (FGFs) are reported to augment or oppose TGFβ-driven EndMT in specific contexts. Here, we have synthesized the currently understood roles of TGFβ and FGF signalling during EndMT and have provided a new, comprehensive paradigm that delineates how an autocrine and paracrine TGFβ/FGF axis coordinates endothelial cell specification and plasticity. We also provide new guidelines and nomenclature that considers factors such as endothelial cell heterogeneity to better define EndMT across different vascular beds. This perspective should therefore help to clarify why TGFβ and FGF can both cooperate with or oppose one another during the complex process of EndMT in both health and disease. Copyright © 2016 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.

Topics: Actins; Cardiovascular Diseases; Cell Differentiation; Cell Movement; Cell Proliferation; Endothelial Cells; Epithelial-Mesenchymal Transition; Fibroblast Growth Factors; Fibroblasts; Fibrosis; Humans; Molecular Targeted Therapy; Myofibroblasts; Signal Transduction; Transforming Growth Factor beta; Tumor Microenvironment

Growth differentiation factor-15 (GDF-15) is a member of the transforming growth factor beta superfamily. GDF-15 expression is dramatically upregulated during acute brain injury, cancer, cardiovascular disease, and inflammation, suggesting its potential value as a disease biomarker. It has been suggested that GDF-15 has neurotropic effects in the nervous system. Our studies showed that GDF-15 modulated the expression of neuronal K

Topics: Animals; Brain Injuries; Calcium Channels; Cardiovascular Diseases; Disease Progression; Growth Differentiation Factor 15; Humans; Inflammation; Mice; Neoplasms; Nervous System; Potassium Channels; Prefrontal Cortex; Transforming Growth Factor beta; Up-Regulation

This article reviews the regulatory roles of the immediate-early gene product and prototypic zinc finger transcription factor, early growth response-1 in models of cardiovascular pathobiology, focusing on insights using microRNA, DNAzymes, small hairpin RNA, small interfering RNA, oligonucleotide decoy strategies and mice deficient in early growth response-1.

Topics: Animals; Cardiovascular Diseases; Disease Models, Animal; DNA, Catalytic; Early Growth Response Protein 1; Gene Expression Regulation; Humans; Mice; Mice, Knockout; MicroRNAs; Muscle, Smooth, Vascular; Oligodeoxyribonucleotides; RNA, Messenger; RNA, Small Interfering; Transforming Growth Factor beta

A soluble form of endoglin (sEng) is known to be an extracellular domain of the full-length membrane endoglin, which is elevated during various pathological conditions related to vascular endothelium. In the current review, we tried to summarize a possible role of soluble endoglin in cardiovascular pathologies, focusing on its relation to endothelial dysfunction and cholesterol levels. We discussed sEng as a proposed biomarker of cardiovascular disease progression, cardiovascular disease treatment and endothelial dysfunction. We also addressed a potential interaction of sEng with TGF-β/eNOS or BMP-9 signaling. We suggest soluble endoglin levels to be monitored, because they reflect the progression/treatment efficacy of cardiovascular diseases related to endothelial dysfunction and hypercholesterolemia. A possible role of soluble endoglin as an inducer of endothelial dysfunction however remains to be elucidated.

Topics: Animals; Antigens, CD; Biomarkers; Cardiovascular Diseases; Endoglin; Endothelium, Vascular; Growth Differentiation Factor 2; Growth Differentiation Factors; Humans; Hypercholesterolemia; Nitric Oxide Synthase Type III; Prognosis; Receptors, Cell Surface; Signal Transduction; Transforming Growth Factor beta

Endoglin (CD105) is a type III auxiliary receptor for the transforming growth factor beta (TGFβ) superfamily. Several lines of evidence suggest that endoglin plays a critical role in maintaining cardiovascular homeostasis. Seemingly disparate disease conditions, including hereditary hemorrhagic telangiectasia, pre-eclampsia, and cardiac fibrosis, have now been associated with endoglin. Given the central role of the TGFβ superfamily in multiple disease conditions, this review provides a detailed update on endoglin as an evolving therapeutic target in the management of cardiovascular disease.

Topics: Animals; Antigens, CD; Cardiovascular Diseases; Cardiovascular System; Endoglin; Female; Homeostasis; Humans; Ligands; Male; Pre-Eclampsia; Pregnancy; Receptors, Cell Surface; Signal Transduction; Telangiectasia, Hereditary Hemorrhagic; Transforming Growth Factor beta; Ventricular Remodeling

Activin receptor-like kinase-1 or ALK-1 is a type I cell surface receptor for the transforming growth factor-β (TGF-β) family of proteins. The role of ALK-1 in endothelial cells biology and in angiogenesis has been thoroughly studied by many authors. However, it has been recently suggested a possible role of ALK-1 in cardiovascular homeostasis. ALK-1 is not only expressed in endothelial cells but also in smooth muscle cells, myofibroblast, hepatic stellate cells, chondrocytes, monocytes, myoblasts, macrophages or fibroblasts, but its role in these cells have not been deeply analyzed. Due to the function of ALK-1 in these cells, this receptor plays a role in several cardiovascular diseases. Animals with ALK-1 haploinsufficiency and patients with mutations in Acvrl1 (the gene that codifies for ALK-1) develop type-2 Hereditary Hemorrhagic Telangiectasia. Moreover, ALK-1 heterozygous mice develop pulmonary hypertension. Higher levels of ALK-1 have been observed in atherosclerotic plaques, suggesting a possible protector role of this receptor. ALK-1 deficiency is also related to the development of arteriovenous malformations (AVMs). Besides, due to the ability of ALK-1 to regulate cell proliferation and migration, and to modulate extracellular matrix (ECM) protein expression in several cell types, ALK-1 has been now demonstrated to play an important role in cardiovascular remodeling. In this review, we would like to offer a complete vision of the role of ALK-1 in many process related to cardiovascular homeostasis, and the involvement of this protein in the development of cardiovascular diseases, suggesting the possibility of using the ALK-1/smad-1 pathway as a powerful therapeutic target.

Topics: Activin Receptors, Type II; Cardiovascular Diseases; Homeostasis; Humans; Signal Transduction; Smad1 Protein; Transforming Growth Factor beta

GDF-15 (also MIC-1, NAG-1, PLAB, PTGFB) is a member of the TGF-β superfamily, which is widely distributed in mammalian tissues and has been shown to play multiple roles in various pathologies, including inflammation, cancer, cardiovascular diseases, and obesity. GDF-15 serum levels are a highly reliable predictor of disease progression. Both the anti-tumorigenic potential of GDF-15 and its capacity to promote metastasis have been documented for a large variety of cancers, yet its opposing functions, which are typical for members of the TGF-β superfamily, have only partly been resolved on the molecular level. Knowledge on physiological functions in the non-diseased organism is scarce. In the nervous system GDF-15 knockout analyses have revealed that GDF-15 is essential for the postnatal maintenance of various neuron populations. When applied exogenously GDF-15 is a powerful factor for promoting survival of developing and lesioned neurons in vitro and in vivo. Receptor activation by GDF-15 has only been partially resolved.

Topics: Animals; Cardiovascular Diseases; Gene Expression Regulation; Growth Differentiation Factor 15; Humans; Inflammation; Mice; Neoplasms; Obesity; Signal Transduction; Tissue Distribution; Transforming Growth Factor beta

We recently identified hundreds of transcripts with differential expression in rat zona glomerulosa (zG) and zona fasciculata. Although the genes up-regulated in the zG may be playing important roles in aldosterone production, the relationship between most of these genes and aldosterone production has not been uncovered. Because aldosterone, in the presence of a high sodium diet, is now considered a significant cardiovascular risk factor, in this review we performed gene ontology and pathway analyses on the same microarray data to better define the genes that may influence zG function. Overall, we identified a number of genes that may be involved in aldosterone production through transforming growth factor β (TGF-β), WNT, calcium, potassium, and ACTH signaling pathways. The list of genes we present in the current report may become an important tool for researchers working on primary aldosteronism and aldosterone-related cardiovascular diseases.

Topics: Adrenocorticotropic Hormone; Aldosterone; Animals; Calcium; Cardiovascular Diseases; Gene Expression; Potassium; Rats; Signal Transduction; Transcription, Genetic; Transforming Growth Factor beta; Wnt Proteins; Zona Fasciculata; Zona Glomerulosa

The majority of children with congenital heart disease now live into adulthood due to the remarkable surgical and medical advances that have taken place over the past half century. Because of this, adults now represent the largest age group with adult cardiovascular diseases. It includes patients with heart diseases that were not detected or not treated during childhood, those whose defects were surgically corrected but now need revision due to maladaptive responses to the procedure, those with exercise problems and those with age-related degenerative diseases. Because adult cardiovascular diseases in this population are relatively new, they are not well understood. It is therefore necessary to understand the molecular and physiological pathways involved if we are to improve treatments. Since there is a developmental basis to adult cardiovascular disease, transforming growth factor beta (TGFβ) signaling pathways that are essential for proper cardiovascular development may also play critical roles in the homeostatic, repair and stress response processes involved in adult cardiovascular diseases. Consequently, we have chosen to summarize the current information on a subset of TGFβ ligand and receptor genes and related effector genes that, when dysregulated, are known to lead to cardiovascular diseases and adult cardiovascular deficiencies and/or pathologies. A better understanding of the TGFβ signaling network in cardiovascular disease and repair will impact genetic and physiologic investigations of cardiovascular diseases in elderly patients and lead to an improvement in clinical interventions.

Topics: Aging; Angiotensin II; Animals; Cardiac Rehabilitation; Cardiovascular Diseases; Epithelial-Mesenchymal Transition; Gene Expression; Genetic Variation; Humans; Mitogen-Activated Protein Kinases; Mutation; Receptors, Transforming Growth Factor beta; Signal Transduction; Smad Proteins; Transforming Growth Factor beta

Ligands of the Transforming Growth Factor β superfamily like Transforming Growth Factor β and Bone Morphogenetic Proteins govern developmental processes and regulate adult homeostasis by controlling cellular proliferation, survival, differentiation and migration. Aberrant signalling activity is associated with human disorders such as cancer, cardiovascular, musculoskeletal, or fibrotic disease. Upon binding to specific sets of cognate cell surface receptors, family members induce highly similar pathways which include canonical SMAD dependent signalling as well as pathways without direct involvement of SMAD proteins, which activate signalling molecules like mitogen-activated protein kinases or small GTPases. The diverse ligand functionalities are achieved through regulation and modulation of the pathways at all levels, resulting in a highly quantitative and context sensitive signal integration reflecting the cellular state and background. Strategies to target Transforming Growth Factor β or Bone Morphogenetic Protein pathways have been developed on the basis of our current understanding and have proven a highly beneficial potential.

Topics: Animals; Bone Morphogenetic Proteins; Cardiovascular Diseases; Cellular Microenvironment; Gene Expression Regulation; GTP Phosphohydrolases; Humans; Mitogen-Activated Protein Kinases; Musculoskeletal Diseases; Neoplasms; Receptor Cross-Talk; Signal Transduction; Smad Proteins; Transcriptional Activation; Transforming Growth Factor beta

Transforming growth factor β (TGFβ) family members are involved in a wide range of diverse functions and play key roles in embryogenesis, development and tissue homeostasis. Perturbation of TGFβ signaling may lead to vascular and other diseases. In vitro studies have provided evidence that TGFβ family members have a wide range of diverse effects on vascular cells, which are highly dependent on cellular context. Consistent with these observations genetic studies in mice and humans showed that TGFβ family members have ambiguous effects on the function of the cardiovascular system. In this review we discuss the recent advances on TGFβ signaling in (cardio)vascular diseases, and describe the value of TGFβ signaling as both a disease marker and therapeutic target for (cardio)vascular diseases.

Topics: Animals; Atherosclerosis; Calcinosis; Cardiovascular Diseases; Humans; Ligands; Mice; Models, Biological; Signal Transduction; Transforming Growth Factor beta

Chymase converts angiotensin I to angiotensin II and it can also convert precursors of TGF-β and MMP-9 to their active forms. Therefore, diseases related to angiotensin II TGF-β, and MMP-9 could potentially be treated with chymase inhibitors.. This review discusses the appropriate targets and safety of chymase inhibitors. Six diseases with notable mortality or morbidity as targets of chymase inhibitors are focused on; abdominal aortic aneurysms (AAAs), nephropathy and retinopathy, cardiomyopathy, nonalcoholic steatohepatitis (NASH), organ fibrosis and intestinal diseases.. If chymase inhibition proves to be a useful strategy for the attenuation of angiotensin II, TGF-β and MMP-9 in vivo, the application of chymase inhibitors is likely to become widespread in various diseases in the clinical setting. Chymase inhibitors are anticipated not to interfere with the homeostasis of resting tissues, that is, those not affected by injury or inflammation.

Topics: Angiotensin II; Animals; Cardiovascular Diseases; Chymases; Digestive System Diseases; Enzyme Inhibitors; Fibrosis; Humans; Intestinal Diseases; Matrix Metalloproteinase 9; Molecular Targeted Therapy; Transforming Growth Factor beta

The TGF-β (transforming growth factor-β) system signals via protein kinase receptors and Smad mediators to regulate a plethora of biological processes, including morphogenesis, embryonic development, adult stem cell differentiation, immune regulation, wound healing and inflammation. In addition, alterations of specific components of the TGF-β signalling pathway may contribute to a broad range of pathologies such as cancer, cardiovascular pathology, fibrosis and congenital diseases. The knowledge about the mechanisms involved in TGF-β signal transduction has allowed a better understanding of the disease pathogenicity as well as the identification of several molecular targets with great potential in therapeutic interventions.

Topics: Animals; Cardiovascular Diseases; Humans; Inflammation; Lung Diseases; Molecular Targeted Therapy; Musculoskeletal Diseases; Mutation; Neoplasms; Receptors, Transforming Growth Factor beta; Signal Transduction; Smad Proteins; Transforming Growth Factor beta

3-Hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitors, also known as statins, are a drug class that reduce the level of cholesterol in the blood. As a result, statins are used to suppress the progression of cardiovascular disease. Evidence points to another component of statins involving the non-lipid effects of the drug class in preventing cardiovascular disease. One specific mediator of this action is the transforming growth factor β (TGF-β) superfamily. The TGF-β superfamily consists of proteins that include TGF-β and bone morphogenetic proteins (BMPs). These proteins regulate cellular pathways to mediate effects including immunomodulation, cell cycling, and angiogenesis. One pathway that mediates these effects is Ras. Moreover, within this pathway, different functions are possible depending on the activation of the specific receptor subtype. This review discusses the recent development of the non-lipid effects of statins in preventing cardiovascular disease progression by regulating Ras pathway of the TGF-β superfamily, especially RhoA/ROCK pathway.. A systematic PubMed database search of all English-language articles up to 2011 was conducted using the following terms: statin, TGF-β, Ras, ROCK, GGPP, inducible nitric oxide synthase, endothelial nitric oxide synthase, actin filament formation, PPARγ, MMP-2, and human trials.. With better understanding of the pathway, various mediators were identified; some of these mediators are important biomarkers producing more specific and accurate assessment of the pleiotropic effects of statins. The review of human trials also highlights that more specific biomarkers are employed in recent studies, and the non-lipid effects on human subjects are more accurately documented. Confirmation of the accuracy of these biomarkers by further large-scale studies and further development of new biomarkers may prove an important path leading to better patient selection for treatment, and thus better cost-effectiveness may be achieved.

Topics: Animals; Biomarkers; Bone Morphogenetic Proteins; Cardiovascular Diseases; Humans; Hydroxymethylglutaryl-CoA Reductase Inhibitors; Signal Transduction; Transforming Growth Factor beta

C-type natriuretic peptide (CNP) is a member of the small family of natriuretic peptides that also includes atrial natriuretic peptide (ANP) and brain, or B-type natriuretic peptide (BNP). Unlike them, it performs its major functions in an autocrine or paracrine manner. Those functions, mediated through binding to the membrane guanylyl cyclase natriuretic peptide receptor B (NPR-B), or by signaling through the non-enzyme natriuretic peptide receptor C (NPR-C), include the regulation of endochondral ossification, reproduction, nervous system development, and the maintenance of cardiovascular health. To date, the regulation of CNP gene expression has not received the attention that has been paid to regulation of the ANP and BNP genes. CNP expression in vitro is regulated by TGF-β and receptor tyrosine kinase growth factors in a cell/tissue-specific and sometimes species-specific manner. Expression of CNP in vivo is altered in diseased organs and tissues, including atherosclerotic vessels, and the myocardium of failing hearts. Analysis of the human CNP gene has led to the identification of a number of regulatory sites in the proximal promoter, including a GC-rich region approximately 50 base pairs downstream of the Tata box, and shown to be a binding site for several putative regulatory proteins, including transforming growth factor clone 22 domain 1 (TSC22D1) and a serine threonine kinase (STK16). The purpose of this review is to summarize the current literature on the regulation of CNP expression, emphasizing in particular the putative regulatory elements in the CNP gene and the potential DNA-binding proteins that associate with them.

Topics: Animals; Cardiovascular Diseases; Cardiovascular System; Endothelial Cells; Gene Expression Regulation; Genome, Human; Humans; Myocytes, Smooth Muscle; Natriuretic Peptide, C-Type; Promoter Regions, Genetic; Regulatory Elements, Transcriptional; Repressor Proteins; RNA, Messenger; Signal Transduction; Transcription Factors; Transforming Growth Factor beta

Recently, many investigators have reported that treatment with vitamin D improves outcomes of patients with chronic kidney disease. Though the detailed mechanisms have remained unclear, it has been speculated that such a treatment may prevent progression of chronic kidney disease and cardiovascular disease. It has been reported that Vitamin D may attenuate renal injury and ameliorate renal function and proteinuria. In addition, several studies have shown that vitamin D may prevent progression of atherosclerosis, vascular calcification and left ventricular hypertrophy. The emerging experimental and clinical evidence has suggested that vitamin D may protect kidney and cardiovascular system.

Topics: Atherosclerosis; Calcinosis; Cardiovascular Diseases; Chronic Disease; Humans; Hyperparathyroidism, Secondary; Hypertrophy, Left Ventricular; Kidney; Kidney Diseases; Receptors, Calcitriol; Renin-Angiotensin System; Th1 Cells; Transforming Growth Factor beta; Vitamin D; Vitamin D-Binding Protein

The major underlying pathology of most cardiovascular disease is the chronic inflammatory disease of atherosclerosis. Type 2 diabetes, also recognised as an inflammatory condition, accelerates the development of atherosclerosis. Current therapies for atherosclerosis target risk factors such as elevated blood lipids and hypertension and are of strong but limited efficacy. The "response to retention" hypothesis states that atherosclerosis is initiated by the accumulation of lipids through binding to extracellular matrix, and this is specifically the glycosaminoglycan (GAG) chains on proteoglycans. Many vasoactive agonists stimulate changes in the structure of the GAGs which increase lipid binding and the relevant signalling pathways are a potential therapeutic target. It has recently been demonstrated that the actions of transforming growth factor beta on vascular smooth muscle proteoglycan synthesis involves signalling through p38 MAP kinase and inhibition of this pathway reduces binding of lipids. Inhibition of p38 MAP kinase will elicit a wide spread anti-inflammatory response which may alleviate some of the deleterious processes in cardiovascular tissues. This article explores the potential for the actions of p38 MAP kinase inhibitors directed at proteoglycan synthesis in vascular smooth muscle to contribute to the beneficial outcomes from targeting p38 MAP kinase for the prevention of cardiovascular disease.

Topics: Animals; Atherosclerosis; Cardiovascular Diseases; Drug Delivery Systems; Humans; Muscle, Smooth, Vascular; p38 Mitogen-Activated Protein Kinases; Protein Kinase Inhibitors; Proteoglycans; Risk Factors; Signal Transduction; Transforming Growth Factor beta

Transforming growth factor beta (TGF-beta) superfamily signaling pathways are ubiquitous and essential regulators of cellular processes including proliferation, differentiation, migration, and survival, as well as physiological processes, including embryonic development, angiogenesis, and wound healing. Alterations in these pathways, including either germ-line or somatic mutations or alterations in the expression of members of these signaling pathways often result in human disease. Appropriate regulation of these pathways is required at all levels, particularly at the ligand level, with either a deficiency or an excess of specific TGF-beta superfamily ligands resulting in human disease. TGF-beta superfamily ligands and members of these TGF-beta superfamily signaling pathways also have emerging roles as diagnostic, prognostic or predictive markers for human disease. Ongoing studies will enable targeting of TGF-beta superfamily signaling pathways for the chemoprevention and treatment of human disease.

Topics: Biomarkers; Cardiovascular Diseases; Chromosome Aberrations; Disease; Female; Genetic Diseases, Inborn; Humans; Ligands; Musculoskeletal Diseases; Mutation; Neoplasms; Pregnancy; Pregnancy Complications; Prognosis; Signal Transduction; Transforming Growth Factor beta

Bone morphogenetic proteins (BMPs) and growth differentiation factors (GDFs) control the development and homeostasis of multiple tissue types in many organisms, from humans to invertebrates. These morphogens are expressed in a tissue-specific manner and they signal by binding to serine-threonine kinase receptors, resulting in coordinated changes in gene expression that regulate the differentiation and development of multiple tissue types. In addition, these proteins are regulated post-transcriptionally through binding to several soluble proteins. In this review we focus on a subset of BMPs and GDFs that have been implicated in the pathophysiology of type 2 diabetes and cardiovascular disease.

Topics: Animals; Atherosclerosis; Bone Morphogenetic Protein 7; Bone Morphogenetic Protein Receptors; Bone Morphogenetic Proteins; Cardiovascular Agents; Cardiovascular Diseases; Diabetes Mellitus, Type 2; Growth Differentiation Factor 3; Humans; Hypertension, Pulmonary; Hypoglycemic Agents; Intercellular Signaling Peptides and Proteins; Kidney Diseases; Metabolic Diseases; Signal Transduction; Transforming Growth Factor beta

Topics: Antihypertensive Agents; Biglycan; Cardiovascular Diseases; Extracellular Matrix; Extracellular Matrix Proteins; Humans; Hypertension; Matrix Metalloproteinases; Proteoglycans; Renin-Angiotensin System; Transforming Growth Factor beta

Transforming growth factor-beta (TGF-beta) is a multifunctional growth factor with a wide range of potential effects on growth, differentiation, extracellular matrix accumulation and the immune system. It has been implicated in many cardiovascular disorders. TGF-beta's actions are mediated via a complex between its type I and type II receptors resulting in the phosphorylation of receptor-specific Smads followed by their passage to the nucleus where they influence many transcriptional responses. TGF-beta has important roles in the development of the neointima and constrictive remodeling associated with angioplasty. In atherosclerosis its actions are yet to be fully elucidated but its ability to control the immune system has profound effects on lesion development, particularly by influencing the types of lesions that develop. TGF-beta can also induce arteriogenesis and markedly influences angiogenic processes, possessing both pro- and anti-angiogenic effects. It is also a major contributor to the development of various cardiovascular fibrotic disorders including those in the vasculature, heart and kidney. Targeting TGF-beta prevents neointima formation and the constrictive remodeling associated with angioplasty and also prevents the development of many fibrotic disorders. This review summarizes TGF-beta signaling pathways, the mechanisms by which TGF-beta contributes to many of these cardiovascular diseases and examines the therapeutic potential of targeting TGF-beta actions in preventing these disorders.

Topics: Animals; Cardiovascular Diseases; Clinical Trials as Topic; Drug Delivery Systems; Humans; Mechanotransduction, Cellular; Transforming Growth Factor beta

The major underlying factors associated with tissue damage and fibrosis in cardiovascular and kidney disease are the up-regulation and action of growth factors such as transforming growth factor-beta (TGF-beta) and cytokines produced in response to changes in systemic factors, particularly blood pressure or hyperglycemia. This study identifies the relationship of elevated levels of TGF-beta to increased levels of intact albumin in the urine (micro- and macroalbuminuria). This mechanism may be directly linked to the effect of TGF-beta on albumin uptake and the lysosomal breakdown of filtered albumin by proximal tubular cells prior to excretion.

Topics: Albuminuria; Animals; Cardiovascular Diseases; Extracellular Matrix Proteins; Transforming Growth Factor beta; Transforming Growth Factor beta1

Hypertension is associated with a number of adverse morphologic and functional changes in the cardiovascular system. These include remodeling of the left ventricle, alterations in the morphology and mechanical properties of the vasculature, and the development of endothelial dysfunction. Recent studies have shown that angiotensin II is capable of mediating these changes via its interaction with the angiotensin II type 1 receptor. These nonhemodynamic effects of angiotensin II are independent of its effect on blood pressure. Thus, elevated levels of angiotensin II may lead directly to many hypertension-associated pathologies. Recent evidence that mechanical strain, oxidized low-density lipoprotein cholesterol, and aldosterone can cause upregulation of angiotensin II type 1 receptors indicates that activation of the renin-angiotensin system is not necessary for the actions of angiotensin II to be amplified. Because the strain on the vessel wall may be increased under conditions of hypertension, increased arterial pressure may amplify the actions of angiotensin II without a discernible increase in plasma angiotensin II levels. In both the myocardium and the peripheral vasculature, fibrosis is a major component of the remodeling that occurs in hypertension. There is substantial evidence that transforming growth factor beta-1 (TGF-beta(1)) mediates angiotensin-II-induced fibrosis in patients with hypertension and in those with a variety of nephropathies. Mechanical strain also induces fibrosis in a mechanism mediated by TGF-beta(1). This cytokine thus represents a common pathway by which angiotensin II and increased arterial pressure may induce cardiovascular fibrosis.

Topics: Angiotensin II; Angiotensin-Converting Enzyme Inhibitors; Animals; Cardiovascular Diseases; Humans; Hypertension; Renin-Angiotensin System; Transforming Growth Factor beta

Transforming growth factor beta-1 is the prototypical member of a class of growth factors whose actions have been strongly implicated in a number of pathophysiologic processes including chronic vascular diseases such as atherosclerosis and hypertension. One of the hall-marks of this class of growth factors is the diverse nature of their actions; a characteristic that is thought to arise from the fact that the effects of these factors are very dependent upon the particular cellular context in which they operate. There has been substantial progress in understanding the molecular signaling mechanisms utilized by these factors. These findings are beginning to provide a mechanistic framework with which to understand the complex and pleiotropic actions of these factors on cells and tissues of the cardiovascular system.

Topics: Animals; Cardiovascular Diseases; Humans; Signal Transduction; Transforming Growth Factor beta

Peptide growth factors such as PDGF, FGF, VEGF, and TGF-beta play a critical role in the pathogenesis of cardiovascular diseases. In addition to their pathophysiological role in atherosclerosis and myocardial remodeling, growth factors also promote beneficial effects such as stimulation of angiogenesis and formation of collateral vessels in ischemic tissue. This review focuses on the mechanisms of action and signal relay cascades of peptide growth factors, and summarizes novel therapeutic approaches in cardiovascular medicine. These approaches include both inhibition of growth factors in order to suppress pathogenic processes, and stimulation of growth factors to promote their beneficial effects.

Topics: Cardiovascular Diseases; Endothelial Growth Factors; Fibroblast Growth Factor 2; Growth Inhibitors; Growth Substances; Humans; Lymphokines; Platelet-Derived Growth Factor; Signal Transduction; Transforming Growth Factor beta; Vascular Endothelial Growth Factor A; Vascular Endothelial Growth Factors

Topics: Adipocytes; Animals; Cardiovascular Diseases; Fatty Acids, Nonesterified; Gene Expression Regulation; Humans; Insulin; Obesity; Plasminogen Activator Inhibitor 1; RNA, Messenger; Serine Proteinase Inhibitors; Thromboplastin; Thrombosis; Transforming Growth Factor beta; Triglycerides; Tumor Necrosis Factor-alpha

The soy isoflavone genistein attenuates growth factor- and cytokine-stimulated proliferation of both normal and cancer cells. This article reviews our current understanding of the potential mechanisms of action of genistein. In membrane preparations from mammalian cells, genistein is a potent and specific inhibitor of tyrosine autophosphorylation of the epidermal growth factor (EGF) receptor. However, in several cell systems in which it inhibits growth, genistein does not alter tyrosine phosphorylation of the EGF receptor or other tyrosine kinase substrates thought to be involved in signal transduction pathways, suggesting that other mechanisms may be responsible for its action. Alternatives include inhibition of DNA topoisomerase II activity, regulation of cell cycle checkpoints, and antiangiogenic and antioxidant activity. Experiments in our laboratory suggest a new concept, that genistein may inhibit cell growth by modulating transforming growth factor (TGF) beta1 signaling pathways. Such a link between genistein action and TGFbeta1 function is supported by preliminary results of studies in patients with hereditary hemorrhagic telangiectasia (a genetic disorder involving mutations in proteins that regulate TGFbeta receptor complex formation and signaling) in which several patients had dramatic attenuation of their symptoms after 1 wk of ingesting soy-based beverages. These preclinical studies in combination with our cell culture data suggest that the mechanism of genistein involves, if not requires, TGFbeta1-signaling.

Topics: Animals; Anticarcinogenic Agents; Breast Neoplasms; Cardiovascular Diseases; Cell Division; Female; Genistein; Humans; Male; Prostatic Neoplasms; Protein-Tyrosine Kinases; Signal Transduction; Telangiectasia, Hereditary Hemorrhagic; Transforming Growth Factor beta

Accumulating evidence indicate that various growth-related genes, growth factors and extracellular matrix components play a central role in the pathogenesis of cardiovascular and renal diseases by regulating cellular phenotype, growth and migration or promoting tissue fibrosis. Treatment of hypertensive rats with an angiotensin II type 1-receptor (AT1-receptor) antagonist normalizes cardiac phenotypic modulation and the increased fibrosis-related gene expressions in hypertrophied heart, leading to the improvement of cardiac dysfunction. The AT1-receptor antagonist can inhibit protooncogenes (c-fos, c-jun and Egr-1) and fibronectin gene expressions in rat balloon-injured artery, which is associated with the inhibition of neointima formation. Furthermore, the AT1-receptor antagonist prevents either the phenotypic modulation of glomerular mesangial cells or the increase in transforming growth factor-beta 1 expression in nephrosclerosis. Thus, the AT1-receptor antagonist in vivo potently inhibits the expression of growth-related gene and extracellular matrix and inhibits cellular phenotypic modulation. The AT1-receptor is responsible for the pathogenesis and development of cardiovascular and renal diseases.

Topics: Angiotensin Receptor Antagonists; Animals; Benzimidazoles; Biphenyl Compounds; Cardiovascular Diseases; Fibronectins; Gene Expression; Humans; Imidazoles; Kidney Diseases; Losartan; Proto-Oncogenes; Rats; Receptor, Angiotensin, Type 1; Receptors, Angiotensin; Renin-Angiotensin System; Tetrazoles; Transforming Growth Factor beta

Peptide growth factors are involved in fundamental cellular processes relevant for cardiovascular physiology and pathology, namely, atherogenesis and angiogenesis. The modulation of growth factor-related signals represents a novel strategy for the treatment of cardiac and vascular disease. Experimental modulation of growth factor action has already provided a better understanding of cardiovascular biology and pathophysiology. In turn, the development of specific and powerful molecular tools is setting the stage for the exploration of their clinical potentials. Current strategies include the use of recombinant proteins, specific inhibitors of protein-protein interactions, tyrosine kinase inhibitors, the generation and application of dominant-negative molecules, the development of antisense strategies, and a variety of different gene transfer approaches. Parallel avenues of research are heading toward the same goal, the specific suppression of potent pathogenic stimuli that induce and promote atherogenesis or the augmentation of beneficial ones such as induction of therapeutic angiogenesis. The successful application of one of these strategies seems to be in reach and will certainly be a milestone in molecular medicine.

Topics: Animals; Arteriosclerosis; Cardiovascular Diseases; Collateral Circulation; Endothelial Growth Factors; Fibroblast Growth Factor 2; Growth Inhibitors; Growth Substances; Humans; Lymphokines; Myocardial Ischemia; Neovascularization, Physiologic; Platelet-Derived Growth Factor; Transforming Growth Factor beta; Tunica Intima; Vascular Endothelial Growth Factor A; Vascular Endothelial Growth Factors

There is a controversy over the renoprotective and cardioprotective effects of renin-angiotensin-aldosterone system blockade in kidney transplant recipients (KTRs). The aim of the study was to evaluate the short-term effects of losartan on allograft injury, cardiovascular risk biomarkers and safety of the treatment in KTRs.. An interim analysis of a prospective, open, multicenter, controlled clinical trial CELART (Cardiovascular Effects of Losartan After Renal Transplantation) was performed. KTRs were allocated to losartan (L) 50 to 100 mg or standard hypotensive treatment (ST) group to reach target blood pressure (BP) <140/90 mm Hg. The short-term effects of the therapy were evaluated after 6 months: estimated glomerular filtration rate (eGFR), albuminuria, the intrarenal fibrosis biomarkers: urine excretion of transforming growth factor β-1 (TGFβ-1) and procollagen type III amino terminal propeptide (PIIINP), cardiac biomarker: serum concentration of N-terminal-pro-B-type natriuretic peptide (NT-proBNP), 24-hour ambulatory BP measurement, and hemoglobin and potassium concentrations.. At baseline the groups did not differ with respect to age, primary nephropathy, comorbidity, immunosuppressive therapy, albuminuria, and graft function. A total of 61 (L group) and 73 (ST group) patients reached the target BP and completed protocol at 6 months. After 6 months of therapy there were no significant differences in changes of eGFR, albuminuria, hemoglobin and potassium concentrations, urine excretion of PIIINP, and TGFβ-1 between groups. There was a trend in the L group to decrease the concentration of serum NT-proBNP.. Losartan shows minimal adverse effects and no influence on graft function and biomarkers of graft fibrosis. It may have a positive effect on cardiovascular risk in KTRs. Further interim analyses of the CELART study will be conducted.

Topics: Albuminuria; Allografts; Biomarkers; Cardiovascular Diseases; Fibrosis; Heart Disease Risk Factors; Humans; Kidney Transplantation; Losartan; Potassium; Prospective Studies; Transforming Growth Factor beta

The most effective way to control severity and mortality rate of the novel coronavirus disease (COVID-19) is through sensitive diagnostic approaches and an appropriate treatment protocol. We aimed to identify the effect of adding corticosteroid and Tocilizumab to a standard treatment protocol in treating COVID-19 patients with chronic disease through hematological and lab biomarkers.. This study was performed retrospectively on 68 COVID-19 patients with chronic disease who were treated by different therapeutic protocols. The patients were categorized into four groups: control group represented the patients' lab results at admission before treatment protocols were applied; group 1 included patients treated with anticoagulants, Hydroxychloroquine, and antibiotics; group 2 comprised patients treated with Dexamethasone; and group 3 included patients treated with Dexamethasone and Tocilizumab.. The study paves the way into the effectiveness of combining Dexamethasone with Tocilizumab in treatment COVID-19 patients with chronic diseases.. La forma más eficaz de controlar la gravedad y la tasa de mortalidad de la enfermedad del nuevo coronavirus (COVID-19) es mediante enfoques de diagnóstico sensibles y un protocolo de tratamiento adecuado. Nuestro objetivo fue identificar el efecto de agregar corticosteroides y tocilizumab a un protocolo de tratamiento estándar en el tratamiento de pacientes con COVID-19 con enfermedad crónica a través de biomarcadores hematológicos y de laboratorio.. Este estudio se realizó de forma retrospectiva en 68 pacientes COVID-19 con enfermedad crónica que fueron tratados por diferentes protocolos terapéuticos. Los pacientes se clasificaron en cuatro grupos: el grupo de control representaba los resultados de laboratorio de los pacientes en el momento de la admisión antes de que se aplicaran los protocolos de tratamiento; el grupo 1 incluyó a pacientes tratados con anticoagulantes, hidroxicloroquina y antibióticos; el grupo 2 estaba compuesto por pacientes tratados con dexametasona; y el grupo 3 incluyó a pacientes tratados con dexametasona y tocilizumab.. El estudio allana el camino hacia la eficacia de la combinación de dexametasona con tocilizumab en el tratamiento de pacientes con COVID-19 con enfermedades crónicas.. The Child-Mother Index constitutes a potential useful risk factor indicator for statistical analyses on data after birth. The value of the Child-Mother Index based on the estimated fetal weight before birth deserves evaluation.. Six ceria supports synthesized by various synthesis methodologies were used to deposit cobalt oxide. The catalysts were thoroughly characterized, and their catalytic activity for complete methane oxidation was studied. The supports synthesized by direct calcination and precipitation with ammonia exhibited the best textural and structural properties as well as the highest degree of oxidation. The remaining supports presented poorer textural properties to be employed as catalytic supports. The cobalt deposited over the first two supports presented a good dispersion at the external surface, which induced a significant redox effect that increased the number of Co. Some studies show that children with obesity are more likely to receive a diagnosis of depression, anxiety, or attention-deficit hyperactivity disorder (ADHD). But this does not necessarily mean obesity causes these conditions. Depression, anxiety, or ADHD could cause obesity. A child's environment, including family income or their parents' mental health, could also affect a child's weight and mental health. Understanding the nature of these relationships could help scientists develop better interventions for both obesity and mental health conditions. Genetic studies may help scientists better understand the role of the environment in these conditions, but it's important to consider both the child's and their parents’ genetics in these analyses. This is because parents and children share not only genes, but also environmental conditions. For example, families that carry genetic variants associated with higher body weight might also have lower incomes, if parents have been affected by biases against heavier people in society and the workplace. Children in these families could have worse mental health because of effects of their parent’s weight, rather than their own weight. Looking at both child and adult genetics can help disentangle these processes. Hughes et al. show that a child's own body mass index, a ratio of weight and height, is not strongly associated with the child’s mental health symptoms. They analysed genetic, weight, and health survey data from about 41,000 8-year-old children and their parents. The results suggest that a child's own BMI does not have a large effect on their anxiety symptoms. There was also no clear evidence that a child's BMI affected their symptoms of depression or ADHD. These results contradict previous studies, which did not account for parental genetics. Hughes et al. suggest that, at least for eight-year-olds, factors linked with adult weight and which differ between families may be more critical to a child's mental health than a child’s own weight. For older children and adolescents, this may not be the case, and the individual’s own weight may be more important. As a result, policies designed to reduce obesity in mid-childhood are unlikely to greatly improve the mental health of children. On the other hand, policies targeting the environmental or societal factors contributing to higher body weights, bias against people with higher weights, and poor child mental health directly may be more beneficial.. The development of an efficient photocatalyst for C2 product formation from CO. Оценка антиастенического эффекта последовательной терапии левокарнитином (ЛК) и ацетилкарнитином (АЛК) пациентов с артериальной гипертензией и/или ишемической болезнью сердца (ИБС) с астеническим синдромом (АС).. В открытое сравнительное исследование были включены 120 пациентов в возрасте 54—67 лет с артериальной гипертензией и/или ИБС с АС. Пациенты 1-й группы (. У больных 1-й группы отмечено статистически значимое уменьшение различных проявлений АС. Отличия носили достоверный характер по сравнению как с исходным уровнем, так и со 2-й группой. Установлено эндотелийпротективное действие ЛК и АЛК.. Полученные результаты свидетельствуют, что у таких коморбидных пациентов использование ЛК и АЛК уменьшает выраженность проявлений АС, а установленные эндотелиотропные свойства препаратов позволяют рекомендовать их в составе комплексной персонифицированной терапии пациентов с сердечно-сосудистыми заболеваниями.. Naproxen sodium 440 mg/diphenhydramine 50 mg combination demonstrated improvement in sleep maintenance (WASO) vs. naproxen sodium 550 mg and higher efficiency in average daily pain reduction compared with the comparison groups. The treatment was well tolerated There were no serious or unexpected adverse events reported in the study.. Сравнительный анализ эффективности и безопасности новой комбинации напроксена натрия и дифенгидрамина у пациентов с неспецифическим болевым синдромом в пояснично-крестцовом отделе спины (M54.5 «Боль внизу спины») и нарушением сна (G47.0 «Нарушения засыпания и поддержания сна [бессонница]»).. Проведено проспективное многоцентровое рандомизированное открытое сравнительное в параллельных группах клиническое исследование. Пациенты были рандомизированы в 3 группы. Больные 1-й группы получали напроксен натрия (440 мг) и дифенгидрамин (50 мг), 2-й — напроксен натрия (550 мг), 3-й — парацетамол (1000 мг) и дифенгидрамин (50 мг). Исследуемые препараты пациенты принимали однократно перед сном в течение 3 дней. Все пациенты также принимали 275 мг (1 таблетка) напроксена натрия в качестве препарата фоновой терапии. Первичным критерием эффективности было общее время бодрствования после наступления сна (WASO), измеряемое методом актиграфии. Также использовались критерии оценки продолжительности и качества сна и выраженности боли.. Анализ эффективности проведен для ITT популяции (. Применение комбинации напроксена натрия (440 мг) и дифенгидрамина (50 мг) характеризовалось более выраженным поддержанием сна по сравнению с напроксеном натрия 550 мг и более высокой эффективностью в отношении снижения интенсивности боли по сравнению со 2-й и 3-й группами. Отмечена хорошая переносимость препарата, серьезных нежелательных явлений зарегистрировано не было.

Topics: Acetaminophen; Acetylcarnitine; Acetylcholinesterase; Acids; Acinetobacter baumannii; Acinetobacter Infections; Adaptation, Psychological; Adolescent; Adsorption; Adult; Aged; Alcohol Drinking; Alzheimer Disease; Amikacin; Ammonia; Anaerobiosis; Animals; Anorexia; Anti-Bacterial Agents; Anti-Infective Agents; Anti-Inflammatory Agents; Anti-Inflammatory Agents, Non-Steroidal; Antineoplastic Agents; Anxiety; Aptamers, Nucleotide; Asthenia; Attention Deficit Disorder with Hyperactivity; Bacterial Proteins; Beryllium; beta-Lactamases; Biofuels; Biomass; Biosensing Techniques; Bismuth; Blister; Body Mass Index; Body Surface Area; Boronic Acids; Brain; Breast Neoplasms; Butyrylcholinesterase; Cannabis; Carbapenems; Carbonyl Cyanide m-Chlorophenyl Hydrazone; Carboxylic Acids; Carcinoma, Hepatocellular; Cardiovascular Diseases; Carnitine; Case-Control Studies; Catalysis; Cell Cycle Proteins; Cell Line, Tumor; Cell Proliferation; Child; China; Cholinesterase Inhibitors; Clarithromycin; Clostridioides; Clostridioides difficile; Clostridium Infections; Cohort Studies; Colistin; Colitis; Colon; Coloring Agents; Coronary Artery Bypass; Creatinine; Crystalloid Solutions; Cytokines; Depression; Dextran Sulfate; Dextrans; Diabetes Mellitus, Type 2; Diabetic Retinopathy; Diarrhea; Dietary Supplements; Diphenhydramine; Disease Models, Animal; Disease Outbreaks; Double-Blind Method; Doxorubicin; Drosophila; Drug Tapering; Dysbiosis; Electrons; Escherichia coli; Extracellular Vesicles; Fatigue; Female; Fermentation; gamma-Cyclodextrins; Gastrointestinal Microbiome; Glucose; Graft Survival; Graft vs Host Disease; Head and Neck Neoplasms; Heart Arrest, Induced; Hematopoietic Stem Cell Transplantation; High-Intensity Interval Training; Hippocampus; Humans; Hydrogen-Ion Concentration; Hypertension; Incidence; Interferon-gamma; Italy; Kinetics; Klebsiella Infections; Klebsiella pneumoniae; Lab-On-A-Chip Devices; Lactoferrin; Larva; Length of Stay; Lignin; Liver; Liver Neoplasms; Liver Transplantation; Living Donors; Low Back Pain; Lung; Lung Volume Measurements; Macrophages; Male; Melphalan; Men; Mendelian Randomization Analysis; Meropenem; Methane; Mice; Mice, Inbred C57BL; Microbial Sensitivity Tests; Mitochondrial Proteins; Molecular Docking Simulation; Molecular Structure; Mothers; Motivation; Mycoplasma; Mycoplasma hominis; Mycoplasma Infections; NAD; Nanocomposites; Nanoparticles; Nanotubes, Carbon; Naproxen; Neovascularization, Pathologic; Neurons; Nitrates; Nucleolin; Opuntia; Paratyphoid Fever; Phenotype; Phosphatidylinositol 3-Kinases; Phytochemicals; Plant Extracts; Pregnancy; Prevalence; Prospective Studies; Proto-Oncogene Proteins c-akt; Pulmonary Disease, Chronic Obstructive; Rats; Rats, Wistar; Resveratrol; Retrospective Studies; Rifampin; Risk Factors; RNA, Messenger; Selenium; Sleep; Social Behavior; Soil; Soil Pollutants; Squamous Cell Carcinoma of Head and Neck; Staphylococcus aureus; Structure-Activity Relationship; Suicidal Ideation; Suicide; Superoxide Dismutase-1; Surveys and Questionnaires; Swimming; Syndrome; Tannins; Temperature; Transforming Growth Factor beta; Transplantation Conditioning; Treatment Outcome; Triple Negative Breast Neoplasms; Troponin T; Tumor Microenvironment; United Kingdom; Ureaplasma; Ureaplasma urealyticum; Urinary Tract Infections; Viscum; Waste Disposal Facilities; Wastewater; Water; Water Pollutants, Chemical; Wolfiporia; Young Adult

Dohongsammul-tang (DH) is a Korean traditional herbal medicine used to alleviate symptoms caused by extravasated blood. It is known to protect against cardiovascular diseases and promote blood circulation by activating blood circulation to dispel blood stasis. The DH based on the characteristics of its medicinal properties has discovered the potential of alleviating cardiac hypertrophy. Therefore, this study was performed to verify the pharmacological effect of DH on improving cardiovascular disorders and to demonstrate its mutual improvement effect on renal function. Furthermore, aim of this study is founding the new potential beyond the traditional medicinal efficacy of DH, a traditional medicine.. In cardiovascular disease, cardiac hypertrophy refers to a change in the shape of the heart's structure due to pressure overload. It is known that an increase in myofibrils causes thickening of the heart, resulting in high blood pressure. Therefore, suppressing cardiac hypertrophy may be a major factor in lowering the morbidity, mortality, and heart failure associated with cardiovascular disease. Therefore, the study was performed to investigate whether DH, traditionally used, has effects on improving and alleviating cardiac injury and fibrosis caused by cardiac hypertrophy.. Dohongsamul-tang was composed of 6 herbal medicine and each material were boiled with 4 L distilled water for 2 h. The mixture for dohongsamul-tang centrifuged at 3000 rpm for 10 min and concentrated. The concentrated dohongsamul-tang extraction freeze-dried and sotred at 70 °C. The powder of dohongsamul-tang was diluted with distilled water and administered orally. In this study, pressure overload was induced by tying the transverse aortic arch, which is connected to the left ventricle, to the thickness of a 27G needle by performing a surgical operation. The resulting cardiac hypertrophy and heart remodeling was induced and maintained for 8 weeks.. The study administered propranolol and dohongsamul-tang orally for 10 weeks to investigate their effects on cardiac hypertrophy induced by transverse aortic contraction (TAC) surgery. Results showed that TAC group increased the left ventricle weight and decreased cardiac function, but dohongsamul-tang treatment attenuated these effects. The pressure-volume curve experiment revealed that dohongsamul-tang improved cardiovascular function, which was worsened by TAC group. Dohongsamul-tang treatment also downregulated collagen I and III through the TGF-β/Smad2 signaling pathway and improved hematological biomarkers of cardiac hypertrophy. In addition, dohongsamul-tang treatment improved renal function-related biomarkers, such as blood creatinine, blood urea nitrogen, and neutrophil gelatinase-associated lipocalin, which were increased by TAC-induced cardiac hypertrophy.. Taken together, dohongsamul-tang treatment inhibited cardiac remodeling due to pressure overload in the TAC-induced cardiac hypertrophy model, and this effect is thought to be manifested by improving the functional and morphological changes through the calcineurin/NFATc4 and reducing the cardiac fibrosis by suppressing TGF-β/Smad2 signaling pathways.

Topics: Animals; Calcineurin; Cardiomegaly; Cardiovascular Diseases; Disease Models, Animal; Fibrosis; Mice; Mice, Inbred C57BL; Plant Extracts; Transforming Growth Factor beta; Ventricular Remodeling; Water

Topics: Activins; Cardiovascular Diseases; Humans; Liver; Transforming Growth Factor beta

Obesity is linked to cardiometabolic diseases, however non-obese individuals are also at risk for type 2 diabetes (T2D) and cardiovascular disease (CVD). White adipose tissue (WAT) is known to play a role in both T2D and CVD, but the contribution of WAT inflammatory status especially in non-obese patients with cardiometabolic diseases is less understood. Therefore, we aimed to find associations between WAT inflammatory status and cardiometabolic diseases in non-obese individuals.. In a population-based cohort containing non-obese healthy (n = 17), T2D (n = 16), CVD (n = 18), T2D + CVD (n = 19) individuals, seventeen different cytokines were measured in WAT and in circulation. In addition, 13-color flow cytometry profiling was employed to phenotype the immune cells. Human T cell line (Jurkat T cells) was stimulated by rCCL18, and conditioned media (CM) was added to the in vitro cultures of human adipocytes. Lipolysis was measured by glycerol release. Blocking antibodies against IFN-γ and TGF-β were used in vitro to prove a role for these cytokines in CCL18-T-cell-adipocyte lipolysis regulation axis.. In CVD, T2D and CVD + T2D groups, CCL18 and CD4. We suggest that in T2D and CVD, increased production of CCL18 recruits and activates CD4

Topics: Adipose Tissue; Adipose Tissue, White; Cardiovascular Diseases; CD4-Positive T-Lymphocytes; Chemokines, CC; Cytokines; Diabetes Mellitus, Type 2; Glycerol; Humans; Obesity; T-Lymphocytes; Transforming Growth Factor beta

Transforming growth factor-beta (TGF-β) exists in three isoforms TGF-β1, -β2, and -β3. TGF-β1 has been suggested to be important for maintaining plaque stability, yet the role of TGF-β2 and -β3 in atherosclerosis remains to be investigated.This study explores the association of the three isoforms of TGF-β with plaque stability in the human atherosclerotic disease.. TGF-β1, -β2, and -β3 proteins were quantified in 223 human carotid plaques by immunoassays. Indications for the endarterectomy were: symptomatic carotid plaque with stenosis >70% or without symptoms and >80% stenosis. Plaque mRNA levels were assessed by RNA sequencing. Plaque components and extracellular matrix were measured histologically and biochemically. Matrix metalloproteinases and monocyte chemoattractant protein-1 (MCP-1) was measured with immunoassays. The effect of TGF-β2 on inflammation and protease activity was investigated in vitro using THP-1 and RAW264.7 macrophages. Patients were followed longitudinally for cardiovascular (CV) events.TGF-β2 was the most abundant isoform and was increased at both protein and mRNA levels in asymptomatic plaques. TGF-β2 was the main determinant separating asymptomatic plaques in an Orthogonal Projections to Latent Structures Discriminant Analysis. TGF-β2 correlated positively to features of plaque stability and inversely to markers of plaque vulnerability. TGF-β2 was the only isoform inversely correlated to the matrix-degrading matrix metalloproteinase-9 and inflammation in the plaque tissue. In vitro, TGF-β2 pre-treatment reduced MCP-1 gene and protein levels as well as matrix metalloproteinase-9 gene levels and activity. Patients with plaques with high TGF-β2 levels had a lower risk to suffer from future CV events.. TGF-β2 is the most abundant TGF-β isoform in human plaques and may maintain plaque stability by decreasing inflammation and matrix degradation.

Topics: Cardiovascular Diseases; Constriction, Pathologic; Humans; Inflammation; Matrix Metalloproteinase 9; Plaque, Atherosclerotic; Protein Isoforms; RNA, Messenger; Transforming Growth Factor beta; Transforming Growth Factor beta1; Transforming Growth Factor beta2; Transforming Growth Factors

Maternal overnutrition-induced fetal programming predisposes offspring to cardiovascular health issues throughout life. Understanding how these adverse cardiovascular effects are regulated at the maternal-fetal crosstalk will provide insight into the mechanisms of these cardiovascular diseases, which will help in further identifying potential targets for intervention. Here, we uncover a role of oxidative stress caused by prenatal overnutrition in governing cardiac damage. Mice exposed to maternal obesity showed remarkable pathological cardiomyocyte hypertrophy (

Topics: Adult Children; Animals; Antioxidants; Cardiovascular Diseases; Female; Humans; Hypertrophy; Male; Mice; Overnutrition; Pregnancy; Prenatal Exposure Delayed Effects; Transforming Growth Factor beta

Cardiac fibrosis is a common cause of most cardiovascular diseases. Leonurine, an alkaloid from Herba leonuri, had been indicated to treat cardiovascular diseases due to its cardioprotective effects. Recently, pyroptosis, a programmed form of cell death that releases inflammatory factors, has been shown to play an important role in cardiovascular diseases, especially cardiac fibrosis. This study examined the novel mechanism by which leonurine protects against cardiac fibrosis. In rats with isoprenaline-induced cardiac fibrosis, leonurine inhibited the expression of proteins related to pyroptosis and improved cardiac fibrosis. In vitro, leonurine inhibited the expression of proteins related to pyroptosis and fibrosis. Additionally, leonurine regulated the TGF-β/Smad2 signalling pathway and inhibited pyroptosis to protect cardiomyocytes and improve cardiac fibrosis. Therefore, leonurine might improve cardiac fibrosis induced by isoprenaline by inhibiting pyroptosis via the TGF-β/Smad2 signalling pathway.

Topics: Animals; Cardiovascular Diseases; Fibrosis; Isoproterenol; Myocytes, Cardiac; Pyroptosis; Rats; Signal Transduction; Transforming Growth Factor beta

Atherosclerosis, the major underlying pathology of cardiovascular disease, commences with the binding and trapping of lipids on modified proteoglycans, with hyperelongated glycosaminoglycan chains. Transforming growth factor (TGF)-β stimulates glycosaminoglycan elongation in vascular smooth muscle cells. We have recently shown that this TGF-β signaling pathway involves reactive oxygen species (ROS). YY-11 is a dodecapeptide derived from camel milk and it has antioxidant activity. We have investigated the role of YY-11 in blocking ROS signaling and downstream atherogenic responses. YY-11 inhibited TGF-β stimulated ROS production and inhibited the expression of genes for glycosaminoglycan chain elongation as a component of an in vitro model of atherosclerosis. This study provides a biochemical mechanism for the role of camel milk as a potential nutritional product to contribute to the worldwide amelioration of cardiovascular disease. PRACTICAL APPLICATIONS: The identification of readily accessible foods with antioxidant properties would provide a convenient and cost-effective approach community wide reducing oxidative stress induced pathologies such as atherosclerosis. We demonstrate that camel milk-derived peptide is an antioxidant that can inhibit growth factor-mediated proteoglycan modification in vitro. As proteoglycan modification is being recognized as one of the earliest atherogenic responses, these data support the notion of camel milk as a suitable nutritional product to contribute to the prevention of early stage of atherosclerosis development.

Topics: Animals; Antioxidants; Atherosclerosis; Camelus; Cardiovascular Diseases; Glycosaminoglycans; Humans; Milk; Muscle, Smooth, Vascular; Phosphorylation; Proteoglycans; Reactive Oxygen Species; Signal Transduction; Smad2 Protein; Transforming Growth Factor beta

Dysregulated transforming growth factor TGF-β signaling underlies the pathogenesis of genetic disorders affecting the connective tissue such as Loeys-Dietz syndrome. Here, we report 12 individuals with bi-allelic loss-of-function variants in IPO8 who presented with a syndromic association characterized by cardio-vascular anomalies, joint hyperlaxity, and various degree of dysmorphic features and developmental delay as well as immune dysregulation; the individuals were from nine unrelated families. Importin 8 belongs to the karyopherin family of nuclear transport receptors and was previously shown to mediate TGF-β-dependent SMADs trafficking to the nucleus in vitro. The important in vivo role of IPO8 in pSMAD nuclear translocation was demonstrated by CRISPR/Cas9-mediated inactivation in zebrafish. Consistent with IPO8's role in BMP/TGF-β signaling, ipo8

Topics: Adolescent; Adult; Animals; beta Karyopherins; Bone Diseases; Cardiovascular Diseases; Child; Connective Tissue Diseases; Female; Humans; Immunity, Cellular; Infant; Loss of Function Mutation; Loss of Heterozygosity; Male; Middle Aged; Pedigree; Phenotype; Signal Transduction; Transforming Growth Factor beta; Young Adult; Zebrafish

Hyperthyroidism promotes the development and progression of cardiovascular diseases (CVD). Aldosterone, a key mediator of myocardial inflammation, oxidative stress and fibrosis, may be activated in hyperthyroidism.. To assess the impact of hyperthyroidism on aldosterone levels and myocardial oxidative status, inflammatory and fibrotic markers in hyperthyroid rats, and to test if the use of spironolactone (an aldosterone antagonist) attenuates these changes.. Adult Wistar rats were randomly distributed into 4 groups; controls, spironolactone treated rats (Spir, 50mg/kg/day), hyperthyroid rats (Hyper, daily intraperitoneal levothyroxine 0.3mg/kg/day), and spironolactone treated hyperthyroid rats (Hyper+Spir) for 4 weeks. Blood pressure (Bp), and levels of serum and myocardial aldosterone, oxidants/antioxidants, inflammatory and fibrotic markers were measured.. Levothyroxine increased serum thyroid hormones and increased Bp, heart rate and heart to bodyweight ratio. Relative to control, serum aldosterone levels were increased in Hyper and Hyper+ Spir groups. In parallel, cardiac lipid peroxides and serum endothelin-1 were increased whereas cardiac superoxide dismutase, catalase, glutathione, and matrix metalloproteinase -2 were reduced in the Hyper group. Spironolactone decreased serum thyroid hormones and improved cardiac lipid peroxides and metalloproteinase -2 levels. The use of spironolactone decreased serum nitrite levels and increased cardiac SOD and glutathione. Cardiac levels of aldosterone, endothelin-1, transforming growth factor-beta and nitrite were similar among all groups.. Hyperthyroid status was associated with an increase in aldosterone and oxidant/ inflammatory biomarkers. The use of spironolactone enhanced antioxidant defenses. Aldosterone antagonists may serve as potential drugs to attenuate the development of cardiac disease in hyperthyroidism.

Topics: Aldosterone; Animals; Antioxidants; Biomarkers; Blood Pressure; Body Weight; Cardiovascular Diseases; Endothelin-1; Heart; Heart Rate; Hyperthyroidism; Male; Mineralocorticoid Receptor Antagonists; Myocardium; Nitrites; Organ Size; Oxidative Stress; Random Allocation; Rats; Spironolactone; Thyroid Hormones; Thyroxine; Transforming Growth Factor beta

Serum-derived extracellular vesicles (sEV) from healthy donors display in-vivo pro-angiogenic properties. To identify patients that may benefit from autologous sEV administration for pro-angiogenic purposes, sEV angiogenic capability has been evaluated in type 2 diabetic (T2DM) subjects (D), in obese individuals with (OD) and without (O) T2DM, and in subjects with ischemic disease (IC) (9 patients/group). sEV display different angiogenic properties in such cluster of individuals. miRNomic profile and TGFβ content in sEV were evaluated. We found that miR-130a and TGFβ content correlates with sEV in-vitro and in-vivo angiogenic properties, particularly in T2DM patients. Ingenuity Pathway Analysis (IPA) identified a number of genes as among the most significant miR-130a interactors. Gain-of-function experiments recognized homeoboxA5 (HOXA5) as a miR-130a specific target. Finally, ROC curve analyses revealed that sEV ineffectiveness could be predicted (Likelihood Ratio+ (LH+) = 3.3 IC 95% from 2.6 to 3.9) by comparing miR-130a and TGFβ content 'in Series'. We demonstrate that sEV from high cardiovascular risk patients have different angiogenic properties and that miR-130a and TGFβ sEV content predicts 'true ineffective sEVs'. These results provide the rationale for the use of these assays to identify patients that may benefit from autologous sEV administration to boost the angiogenetic process.

Topics: 3' Untranslated Regions; Adult; Aged; Cardiovascular Diseases; Case-Control Studies; Diabetes Mellitus, Type 2; Extracellular Vesicles; Female; Homeodomain Proteins; Humans; Male; MicroRNAs; Middle Aged; Transforming Growth Factor beta

Transforming growth factor β (TGFβ) signaling has been recently shown to reduce antitumor response to PD-L1 blockade, leading to a renewed enthusiasm in developing anti-TGFβ therapies for potential combination with cancer immunotherapy agents. Inhibition of TGFβ signaling in nonclinical toxicology species is associated with serious adverse toxicities including cardiac valvulopathies and anemia. Previously, cardiovascular toxicities have been thought to be limited to small molecule inhibitors of TGFβ receptor and not considered to be a liability associated with pan-TGFβ neutralizing monoclonal antibodies (mAbs). Here, we report the toxicity findings associated with a potent pan-TGFβ neutralizing mAb (pan-TGFβ mAb; neutralizes TGFβ1, 2, and 3) after 5 weekly intravenous doses of 10, 30, and 100 mg/kg, followed by a 4-week recovery period, in mice and cynomolgus monkeys. Mortality was observed due to acute bleeding and cardiovascular toxicity in mice at ≥ 30 mg/kg and prolonged menstruation in female monkeys at 100 mg/kg. Additional findings considered to be on-target exaggerated pharmacology included generalized bleeding and cardiovascular toxicity in mice and monkeys; histopathologic changes in the teeth, tongue, and skin in mice; and abnormal wound healing and microscopic pathology in the bone in monkeys. Importantly, our data indicate that the cardiovascular toxicities associated with the inhibition of TGFβ signaling are not limited to small molecule inhibitors but are also observed following administration of a potent pan-TGFβ inhibiting mAb.

Topics: Animals; Antibodies, Monoclonal, Humanized; Antibodies, Neutralizing; Cardiotoxicity; Cardiovascular Diseases; Cell Line; Female; Heart; Hemorrhage; Humans; Macaca fascicularis; Male; Mice; Myocardium; Risk Assessment; Time Factors; Toxicity Tests; Toxicokinetics; Transforming Growth Factor beta

Topics: Animals; Cardiovascular Diseases; Humans; Inflammation; Kidney Failure, Chronic; Muscle, Skeletal; Myostatin; Renal Insufficiency, Chronic; Sarcopenia; Signal Transduction; Transforming Growth Factor beta

Excess dietary salt can lead to the development of arterial stiffness and high blood pressure (BP). Regular physical activity can protect against arterial stiffening and lower BP. Less is known regarding the role of exercise on the vasculature independent of BP under high salt (HS) conditions. The aim of the study was to determine whether wheel running protects against the development of dietary salt-induced arterial stiffness independent of BP.. Rats were maintained on either normal salt (NS; 0.49% NaCl) or HS (4.0% NaCl) diet for 6 weeks and further divided into a voluntary wheel running (NS-VWR, HS-VWR) or cage control group (NS, HS). Carotid-femoral pulse wave velocity (PWV) was measured using applanation tonometry at baseline (BSL) and 6 weeks.. BP was measured weekly and remained unchanged among groups throughout the 6 weeks (P > 0.05). PWV was elevated at 6 weeks in HS compared to baseline (HS-BSL, 3.27 ± 0.17 vs. HS-6 week, 4.13 ± 0.26 m/s; P < 0.05) and was lower at 6 weeks in both VWR groups (NS-VWR, 2.98 ± 0.29, HS-VWR, 3.11 ± 0.23 m/s) when compared to HS at 6 weeks (P < 0.05). This was supported by a significant increase in aortic collagen I in the HS group alone and transforming growth factor beta (TGF-β) was greater in the HS group compared to both NS groups (P < 0.05). Wheel running resulted in a greater aortic phosphorylated eNOS and SOD-2 in HS-WVR (P < 0.05) compared to HS.. These data suggest that VWR may protect against collagen accumulation through a TGF-β-mediated pathway by improving nitric oxide bioavailability and redox balance in rats.

Topics: Animals; Aorta; Arterial Pressure; Cardiovascular Diseases; Collagen Type I; Disease Models, Animal; Exercise Therapy; Male; Nitric Oxide Synthase Type III; Phosphorylation; Rats, Sprague-Dawley; Running; Signal Transduction; Sodium Chloride, Dietary; Superoxide Dismutase; Time Factors; Transforming Growth Factor beta; Vascular Remodeling; Vascular Stiffness

Angiotensin II plays important functions in cardiovascular system mediating actions leading to inflammatory responses such as activation of VSMC in order to produce ROS, inflammatory cytokines, chemokines, and adhesion molecules. Changes in angiotensin II production could stimulate the recruitment and activation of myeloid cells initiating local inflammatory response without effect on BP. We aimed to verify if angiotensin II induces an inflammatory response in the aorta and if it correlates with variations in BP. C57Bl/6 mice treated with saline solution (0.9%, control group) or angiotensin II (30ng/kg, Ang II group) were used. BP and HR levels were measured. Immunohistochemistry for IL1-

Topics: Actins; Angiotensin II; Animals; Aorta; Blood Pressure; Cardiovascular Diseases; Gene Expression Regulation; Humans; Interleukin-1beta; Leukocyte Common Antigens; Mice; Muscle, Smooth, Vascular; Nitric Oxide Synthase Type II; Saline Solution; Transforming Growth Factor beta

Endothelial dysfunction and arterial stiffening play major roles in cardiovascular diseases. The critical role for the miR-181 family in vascular inflammation has been documented. Here we tested whether the miR-181 family can influence the pathogenesis of hypertension and vascular stiffening.. qPCR data showed a significant decrease in miR-181b expression in the aorta of the older mice. Eight miR-181a1/b1-/- mice and wild types (C57BL6J:WT) were followed weekly for pulse wave velocity (PWV) and blood pressure measurements. After 20 weeks, the mice were tested for endothelial function and aortic modulus. There was a progressive increase in PWV and higher systolic blood pressure in miR-181a1/b1-/- mice compared with WTs. At 21 weeks, aortic modulus was significantly greater in the miR-181a1/b1-/- group, and serum TGF-β was found to be elevated at this time. A luciferase reporter assay confirmed miR-181b targets TGF-βi (TGF-β induced) in the aortic VSMCs. In contrast, wire myography revealed unaltered endothelial function along with higher nitric oxide production in the miR-181a1/b1-/- group. Cultured VECs and VSMCs from the mouse aorta showed more secreted TGF-β in VSMCs of the miR-181a1/b1-/- group; whereas, no change was observed from VECs. Circulating levels of angiotensin II were similar in both groups. Treatment with losartan (0.6 g/L) prevented the increase in PWV, blood pressure, and vascular stiffness in miR-181a1/b1-/- mice. Immunohistochemistry and western blot for p-SMAD2/3 validated the inhibitory effect of losartan on TGF-β signaling in miR-181a1/b1-/- mice.. Decreased miR-181b with aging plays a critical role in ECM remodeling by removing the brake on the TGF-β, pSMAD2/3 pathway.

Topics: Aging; Angiotensin II; Animals; Antihypertensive Agents; Aorta; Blood Pressure; Cardiovascular Diseases; Endothelial Cells; Extracellular Matrix; Hypertension; Losartan; Male; Mice; Mice, Inbred C57BL; Mice, Knockout; MicroRNAs; Nitric Oxide; Smad2 Protein; Smad3 Protein; Transforming Growth Factor beta; Vascular Stiffness

High aldosterone level may contribute to pathogenesis of hypertension, vessels damage and cardiovascular system deterioration in chronic kidney disease patients. Besides its classical action via mineralocorticoid receptor, aldosterone is also involved in cell growth, inflammation, oxidative stress, endothelial dysfunction and exerts fibroproliferative effects. The aim of the study was to assess whether aldosterone antagonist treatment may influence serum level of inflammatory, fibrosis, thrombosis and mineral-bone metabolism markers in peritoneal dialysis (PD) patients and blood pressure, aortic stiffness, echocardiographic indices after 12 months of treatment.. Twenty-two patients on PD were assigned to spironolactone treatment in dose of 50 mg daily during 12 months. Fifteen PD patients were assigned to control group. Echocardiographic indices, PVW, SBP, DBP (mean values from ABPM) and biochemical parameters such as: aldosterone, osteopontin, IL-6, selectin-P, TGF-β, PTH, MMP-2 were performed at the beginning and after 12 months in spironolactone and control group.. There were no statistically significant differences in echocardiographic indices, PWV, BP (ABPM readings) and biochemical markers: MMP-2, serum aldosterone, TGF-β, IL-6, selectin-P, PTH level after 12 months of spironolactone treatment. There was statistically significant rise in osteopontin level after 12 months of spironolactone treatment. Episodes of life-threatening hyperkalemia were not reported.. Aldosterone antagonists use in PD patients seems to be safe. Longer duration or higher dosage of spironolactone seems to be more effective in improving cardiovascular system status in PD patients. Further studies are required to determine relationship between mineralocorticoid receptor blockade and mineral-bone disturbances in PD patients.

Topics: Adult; Aged; Aged, 80 and over; Aldosterone; Biomarkers; Blood Pressure; Cardiovascular Diseases; Chronic Kidney Disease-Mineral and Bone Disorder; Echocardiography; Female; Fibrosis; Humans; Inflammation; Interleukin-6; Male; Matrix Metalloproteinase 2; Middle Aged; Mineralocorticoid Receptor Antagonists; Osteopontin; P-Selectin; Parathyroid Hormone; Peritoneal Dialysis; Pulse Wave Analysis; Renal Insufficiency, Chronic; Spironolactone; Thrombosis; Transforming Growth Factor beta; Vascular Stiffness

Serum amyloid A (SAA) has a number of proatherogenic effects including induction of vascular proteoglycans. Chronically elevated SAA was recently shown to increase atherosclerosis in mice. The purpose of this study was to determine whether a brief increase in SAA similarly increased atherosclerosis in a murine model. The recombination activating gene 1-deficient (rag1(-/-)) × apolipoprotein E-deficient (apoe(-/-)) and apoe(-/-) male mice were injected, multiple times or just once respectively, with an adenoviral vector encoding human SAA1 (ad-SAA); the injected mice and controls were maintained on chow for 12-16 weeks. Mice receiving multiple injections of ad-SAA, in which SAA elevation was sustained, had increased atherosclerosis compared with controls. Strikingly, mice receiving only a single injection of ad-SAA, in which SAA was only briefly elevated, also had increased atherosclerosis compared with controls. Using in vitro studies, we demonstrate that SAA treatment leads to increased LDL retention, and that prevention of transforming growth factor beta (TGF-β) signaling prevents SAA-induced increases in LDL retention and SAA-induced increases in vascular biglycan content. We propose that SAA increases atherosclerosis development via induction of TGF-β, increased vascular biglycan content, and increased LDL retention. These data suggest that even short-term inflammation with concomitant increase in SAA may increase the risk of developing CVD.

Topics: Animals; Apolipoproteins E; Atherosclerosis; Cardiovascular Diseases; Cells, Cultured; Disease Models, Animal; Homeodomain Proteins; Male; Mice; Mice, Knockout; Proteoglycans; Serum Amyloid A Protein; Transforming Growth Factor beta

The present study aimed to explore the role of microribonucleic acid (miRNA) Let-7g in regulating endothelial functions.. Derangement of miRNAs is implicated in the pathogenesis of cardiovascular diseases. Because the transforming growth factor (TGF)-β pathway plays a regulatory role in endothelial functions, miRNAs targeted at TGF-β signal cascade might affect vascular health.. Bioinformatics software predicted that Let-7g can influence the TGF-β pathway by targeting 3 genes. The Let-7g's effects on multiple endothelial functions were first tested in endothelial cells (ECs) and then in apolipoprotein E knockout mice. Blood samples from lacunar stroke patients were also examined to further support Let-7g's effects on human subjects.. Let-7g was experimentally confirmed to knock down the THBS1, TGFBR1, and SMAD2 genes in the TGF-β pathway. PAI-I, one of the downstream effectors of the TGF-β pathway, was also down-regulated by Let-7g. Let-7g decreased EC inflammation and monocyte adhesion and increased angiogenesis via the TGF-β pathway. Furthermore, Let-7g reduced EC senescence through increasing SIRT-1 protein. Venous injection of Let-7g inhibitor into apolipoprotein E knockout mice caused overgrowth of vascular intima-media, overexpression of PAI-1, increased macrophage infiltration, and up-regulation of TGF-β downstream genes in the carotid arteries. Let-7g's beneficial effects on EC were reduced, whereas the TGF-β pathway was suppressed by ribonucleic acid interference. Restoration of the TGF-β pathway also attenuated the effects of Let-7g overexpression. Low serum levels of Let-7g were associated with increased circulating PAI-1 levels.. Decreased Let-7g levels impair endothelial function and increase the risks of cardiovascular diseases through targeting TGF-β and SIRT-1 signaling.

Topics: Animals; Cardiovascular Diseases; Disease Models, Animal; Endothelium, Vascular; Female; Gene Expression Regulation; Humans; Male; Mice; Mice, Knockout; MicroRNAs; Polymerase Chain Reaction; RNA; Signal Transduction; Sirtuin 1; Transforming Growth Factor beta; Vasodilation

Spinal cord injury (SCI) causes altered autonomic control and severe physical deconditioning that converge to drive maladaptive cardiac remodelling. We used a clinically relevant experimental model to investigate the cardio-metabolic responses to SCI and to establish whether passive hind-limb cycling elicits a cardio-protective effect. Initially, 21 male Wistar rats were evenly assigned to three groups: uninjured control (CON), T3 complete SCI (SCI) or T3 complete SCI plus passive hind-limb cycling (SCI-EX; 2 × 30 min day(-1), 5 days week(-1) for 4 weeks beginning 6 days post-SCI). On day 32, cardio-metabolic function was assessed using in vivo echocardiography, ex vivo working heart assessments, cardiac histology/molecular biology and blood lipid profiles. Twelve additional rats (n = 6 SCI and n = 6 SCI-EX) underwent in vivo echocardiography and basal haemodynamic assessments pre-SCI and at days 7, 14 and 32 post-SCI to track temporal cardiovascular changes. Compared with CON, SCI exhibited a rapid and sustained reduction in left ventricular dimensions and function that ultimately manifested as reduced contractility, increased myocardial collagen deposition and an up-regulation of transforming growth factor beta-1 (TGFβ1) and mothers against decapentaplegic homolog 3 (Smad3) mRNA. For SCI-EX, the initial reduction in left ventricular dimensions and function at day 7 post-SCI was completely reversed by day 32 post-SCI, and there were no differences in myocardial contractility between SCI-EX and CON. Collagen deposition was similar between SCI-EX and CON. TGFβ1 and Smad3 were down-regulated in SCI-EX. Blood lipid profiles were improved in SCI-EX versus SCI. We provide compelling novel evidence that passive hind-limb cycling prevents cardiac dysfunction and reduces cardiovascular disease risk in experimental SCI.

Topics: Animals; Cardiovascular Diseases; Collagen; Heart Ventricles; Hemodynamics; Hindlimb; Lipoproteins, LDL; Male; Movement; Myocardial Contraction; Myocardium; Rats; Rats, Wistar; Smad3 Protein; Spinal Cord Injuries; Transforming Growth Factor beta; Ultrasonography; Ventricular Function

Fibrotic changes in the heart and arteries have been implicated in a diverse range of cardiovascular diseases (CVD), but whether circulating biomarkers that reflect fibrosis are associated with CVD is unknown.. We determined the associations of 2 biomarkers of fibrosis, transforming growth factor- β (TGF-β), and procollagen type III N-terminal propeptide (PIIINP), with incident heart failure, myocardial infarction, and stroke among community-living older adults in the Cardiovascular Health Study. We measured circulating TGF-β (n=1371) and PIIINP (n=2568) from plasma samples collected in 1996 and ascertained events through 2010. Given TGF-β's pleiotropic effects on inflammation and fibrogenesis, we investigated potential effect modification by C-reactive protein in secondary analyses. After adjustment for sociodemographic, clinical, and biochemical risk factors, PIIINP was associated with total CVD (hazard ratio [HR] per SD=1.07; 95% confidence interval [CI], 1.01-1.14) and heart failure (HR per SD=1.08; CI, 1.01-1.16) but not myocardial infarction or stroke. TGF-β was not associated with any CVD outcomes in the full cohort but was associated with total CVD (HR per SD=1.16; CI, 1.02-1.31), heart failure (HR per SD=1.16; CI, 1.01-1.34), and stroke (HR per SD=1.20; CI, 1.01-1.42) among individuals with C-reactive protein above the median, 2.3 mg/L (P interaction <0.05).. Our findings provide large-scale, prospective evidence that circulating biomarkers of fibrosis, measured in community-living individuals late in life, are associated with CVD. Further research on whether TGF-β has a stronger fibrogenic effect in the setting of inflammation is warranted.

Topics: Age Factors; Aged; Aged, 80 and over; Aging; Biomarkers; C-Reactive Protein; Cardiovascular Diseases; Female; Fibrosis; Heart Failure; Humans; Incidence; Male; Myocardial Infarction; Peptide Fragments; Procollagen; Prognosis; Prospective Studies; Risk Assessment; Risk Factors; Stroke; Time Factors; Transforming Growth Factor beta; United States

The aim of the present study was to assess the influence of peritoneal permeability expressed as the dialysate-to-plasma ratio of creatinine (D/P Cr) on total and cardiovascular (CV) mortality in a population of peritoneal dialysis (PD) patients during a 6-year observation period. The study recruited 55 patients (mean age: 53 years) treated with PD for a median of 24 months. Hematology parameters and serum albumin were determined using routine methods. Tumor necrosis factor alpha (TNF-alpha) and transforming growth factor beta (TGF-beta1) were determined by high-sensitivity ELISA. Peritoneal transport characteristics were identified using D/P Cr reference values after a peritoneal equilibration test. During the 6-year observation period, 22 patients (40%) died, mostly from CV complications (77% of deaths). In multiple Cox regression, D/P Cr and dialysate volume at PD initiation predicted total [hazard ratio (HR): 1.57; p = 0.02; and HR: 1.20; p = 0.04 respectively] and CV mortality (HR: 1.65; p = 0.02; and HR: 1.23; p = 0.05 respectively) independent of age, dialysis therapy duration, serum albumin concentration, dialysis adequacy measures, TGF-beta1, and TNF-alpha. Additionally, TNF-alpha was independently associated with all-cause and CV mortality, and albumin, with all-cause mortality. Baseline D/P Cr was a strong independent marker of survival in PD patients. Baseline D/P Cr and dialysate volume were independent risk factors for total and CV mortality in the PD population and could be significant for assessing CV risk in this population.

Topics: Adult; Aged; Biological Transport; Cardiovascular Diseases; Creatinine; Dialysis Solutions; Female; Humans; Kidney Failure, Chronic; Male; Middle Aged; Peritoneal Dialysis; Peritoneum; Permeability; Risk Factors; Survival Rate; Transforming Growth Factor beta; Tumor Necrosis Factor-alpha

Hypertensive heart disease is a constellation of abnormalities that includes cardiac fibrosis in response to elevated blood pressure, systolic and diastolic dysfunction. The present study was undertaken to examine the effect of sinapic acid on high blood pressure and cardiovascular remodeling.. An experimental hypertensive animal model was induced by L-NAME intake on rats. Sinapic acid (SA) was orally administered at a dose of 10, 20 and 40 mg/kg body weight (b.w.). Blood pressure was measured by tail cuff plethysmography system. Cardiac and vascular function was evaluated by Langendorff isolated heart system and organ bath studies, respectively. Fibrotic remodeling of heart and aorta was assessed by histopathologic analyses. Oxidative stress was measured by biochemical assays. mRNA and protein expressions were assessed by RT-qPCR and western blot, respectively. In order to confirm the protective role of SA on endothelial cells through its antioxidant property, we have utilized the in vitro model of H2O2-induced oxidative stress in EA.hy926 endothelial cells.. Rats with hypertension showed elevated blood pressure, declined myocardial performance associated with myocardial hypertrophy and fibrosis, diminished vascular response, nitric oxide (NO) metabolites level, elevated markers of oxidative stress (TBARS, LOOH), ACE activity, depleted antioxidant system (SOD, CAT, GPx, reduced GSH), aberrant expression of TGF-β, β-MHC, eNOS mRNAs and eNOS protein. Remarkably, SA attenuated high blood pressure, myocardial, vascular dysfunction, cardiac fibrosis, oxidative stress and ACE activity. Level of NO metabolites, antioxidant system, and altered gene expression were also repaired by SA treatment. Results of in vitro study showed that, SA protects endothelial cells from oxidative stress and enhance the production of NO in a concentration dependent manner.. Taken together, these results suggest that SA may have beneficial role in the treatment of hypertensive heart disease by attenuating fibrosis and oxidative stress through its antioxidant potential.

Topics: Animals; Anti-Infective Agents; Antioxidants; Blood Pressure; Cardiovascular Diseases; Cells, Cultured; Coumaric Acids; Enzyme Inhibitors; Hypertension; Male; NG-Nitroarginine Methyl Ester; Nitric Oxide; Oxidative Stress; Rats; Rats, Wistar; Real-Time Polymerase Chain Reaction; Reverse Transcriptase Polymerase Chain Reaction; RNA, Messenger; Transforming Growth Factor beta; Ventricular Remodeling

To investigate the correlation of the functional disequilibrium of regulatory T cells (Treg)/T-helper (Th17) cells with calcification and to explore the significance of their influence on the outcome of cardiovascular disease (CVD) in uremic patients after hemodialysis (HD).. Out of 66 uremia patients, 36 patients had CVD after HD (maintenance hemodialysis (MHD) group1) and 30 patients did not have CVD (MHD group2). Twenty healthy volunteers were selected as normal control group. Peripheral blood mononuclear cells were isolated and treated with recombinant human bone morphogenetic protein-2 (rhBMP-2). Treg and Th17 frequencies were measured by flow cytometry. Forkhead/winged helix transcription factor (Foxp3) and retinoic acid receptor-related orphan receptor-γt (ROR-γt) mRNA expressions were measured by real-time quantitative polymerase chain reaction. Levels of interleukin (IL)-10 and IL-17 were detected by enzyme-linked immunosorbent assay.. When compared with controls, rhBMP-2 upregulates Treg/Th17 functional disequilibrium in uremia patients, displaying higher Treg and Th17 frequencies, Foxp3 and ROR-γt expressions, and levels of cytokines (p < 0.05). These differences were also significant between MHD group1 and group2 (p < 0.05). It was also observed that Treg/Th17 functional disequilibrium was not only correlated with a calcification state but also consistent with the CVD.. The Treg/Th17 cell function disequilibrium might act synergistically with calcification in the high incidence of CVD after HD.

Topics: Analysis of Variance; Bone Morphogenetic Protein 2; Calcinosis; Cardiovascular Diseases; Case-Control Studies; China; Enzyme-Linked Immunosorbent Assay; Female; Flow Cytometry; Forkhead Transcription Factors; Humans; Interleukin-10; Interleukin-17; Male; Middle Aged; Real-Time Polymerase Chain Reaction; Receptors, Retinoic Acid; Recombinant Proteins; Renal Dialysis; Risk Factors; RNA, Messenger; T-Lymphocytes, Regulatory; Th17 Cells; Transforming Growth Factor beta; Uremia

This prospective study aimed to determine whether carotid intima-media thickness (CIMT) and biomarkers can enhance the predictive value of classic atherosclerosis risk factors (RFs) for cardiovascular (CV) event risk in patients with confirmed atherosclerosis.. Baseline levels of hs-CRP, Tumor Necrosis Factor alpha (TNF-α), Transforming Growth Factor beta (TGF-β), Interleukin-6 (IL-6), Interleukin-10 (IL-10) and Nt-proBNP were measured in 304 subjects (189 men) aged 64.2±9.4 years, with confirmed atherosclerotic occlusive disease. Maximum CIMT values of common, bulb and internal carotid arteries were measured and expressed as mean CIMT value. The incidences of CV death, myocardial infarction (MI), ischemic stroke (IS) and symptomatic lesion progression were recorded.. During 44.7±12.1 months of follow-up, CV events occurred in 61 (20.1%) patients. Age (odds ratio: OR=1.04; p=0.013), diabetes (OR=2.01; p=0.007), LDL-cholesterol>3.35mmol/L (OR=2.03; p=0.007), previous MI (OR=2.14; p=0.003) and previous IS (OR=3.35; p<0.001) were found independent CV event RFs. Adding biomarkers or CIMT to classic RFs revealed that levels of TNF-α>6pg/mL (OR=1.77; p=0.024), hs-CRP>6mg/L (OR=1.69; p=0.009) or CIMT>1.25mm (OR=5.11; p<0.001) were independently associated with CV event risk. While Nt-proBNP was found RF of CV death (OR=1.19; p=0.003) and MI (OR=1.19; p=0.002). In patients with RFs plus TNF-α>6pg/mL and hs-CRP>6mg/L, a 2- and 5-year event-free survival was 8% and 4%, respectively, as compared to 42% and 33% in those with RFs but lower TNF-α and hs-CRP levels. While, CIMT<1.25mm increased a 2- and 5-year CV event-free survival probability to 79% and 73%, respectively, despite classic RFs presence.. Additive value of TNF-α, hs-CRP and CIMT to classic RFs in CV risk stratification was found in patients with confirmed atherosclerosis. Nt-proBNP was found an independent risk factor of CV death and MI.

Topics: Aged; Atherosclerosis; C-Reactive Protein; Cardiovascular Diseases; Carotid Arteries; Female; Humans; Interleukin-10; Interleukin-6; Male; Middle Aged; Prospective Studies; Risk; Transforming Growth Factor beta; Tumor Necrosis Factor-alpha; Tunica Intima; Tunica Media

Fibulin-4 is a member of the fibulin family, a group of extracellular matrix proteins prominently expressed in medial layers of large veins and arteries. Involvement of the FBLN4 gene in cardiovascular pathology was shown in a murine model and in three patients affected with cutis laxa in association with systemic involvement. To elucidate the contribution of FBLN4 in human disease, we investigated two cohorts of patients. Direct sequencing of 17 patients with cutis laxa revealed no FBLN4 mutations. In a second group of 22 patients presenting with arterial tortuosity, stenosis and aneurysms, FBLN4 mutations were identified in three patients, two homozygous missense mutations (p.Glu126Lys and p.Ala397Thr) and compound heterozygosity for missense mutation p.Glu126Val and frameshift mutation c.577delC. Immunoblotting analysis showed a decreased amount of fibulin-4 protein in the fibroblast culture media of two patients, a finding sustained by diminished fibulin-4 in the extracellular matrix of the aortic wall on immunohistochemistry. pSmad2 and CTGF immunostaining of aortic and lung tissue revealed an increase in transforming growth factor (TGF)beta signaling. This was confirmed by pSmad2 immunoblotting of fibroblast cultures. In conclusion, patients with recessive FBLN4 mutations are predominantly characterized by aortic aneurysms, arterial tortuosity and stenosis. This confirms the important role of fibulin-4 in vascular elastic fiber assembly. Furthermore, we provide the first evidence for the involvement of altered TGFbeta signaling in the pathogenesis of FBLN4 mutations in humans.

Topics: Aortic Aneurysm; Aortic Diseases; Cardiovascular Diseases; Child; Constriction, Pathologic; Cutis Laxa; Elastic Tissue; Extracellular Matrix Proteins; Female; Frameshift Mutation; Humans; Infant; Infant, Newborn; Male; Mutation, Missense; Signal Transduction; Skin; Transforming Growth Factor beta; Young Adult

The transforming growth factor-β (TGF-β) superfamily are of structurally related proteins that mediate developmental processes including cell growth, apoptosis, cellular homeostasis, tissue differentiation, morphogenesis, proliferation, and migration. Smads are intracellular signaling effectors that mediate intracellular signaling of the TGF-β superfamily. They have been implicated in a wide range of cardiac disorders, including cardiac failure, cardiac fibrosis, myocardial infarction, injury induced by angioplasty, and pulmonary artery hypertension. They also have a function to regulate cardiac structural development in embryos. By binding to types I and II of serine-threonine kinase receptors, bone morphogenetic protein 2 (BMP2) enables phosphorylation of Smad1 to form hetero-oligomeric complexes with Smad4, and modulate the transcription of the target genes after they are translocated into the nucleus. Appropriate interventions, such as Smad-responsive transcriptional promoter and antifibrotic angiotensin-converting enzyme inhibitors, can be helpful in reversing cardiac abnormalities. The aim of this article is to describe the current research results of Smad proteins in terms of cardiac disorders and development through transforming growth factor (TGF)-β pathways.

Topics: Bone Morphogenetic Proteins; Cardiovascular Diseases; Humans; Signal Transduction; Smad Proteins; Transforming Growth Factor beta

Previous studies have shown that metabolic syndrome (MS) is associated with an increased susceptibility to develop cardiovascular damage (CD). Experimental evidence indicates that inflammation and fibrosis could play a critical role in the development of CD in hypertension. This issue has not been clarified yet in patients with MS. The aim of our study was to investigate the relationship between markers of inflammation and fibrosis with CD in hypertensive patients with and without MS.. One hundred twenty-eight essential hypertensive patients were included in the study: 51 with MS and 77 without MS. Clinical, biochemical parameters, 24-h urinary albumin excretion rate (UAER), levels of C-reactive protein (CRP), tumor necrosis factor-alpha (TNF-alpha), transforming growth factor-beta (TGF-beta), and procollagen type 1 carboxy-terminal propeptide (PICP) were measured. All patients underwent an echocardiographic examination with transmitral Doppler and tissue Doppler imaging (TDI).. Left ventricular mass indexed by height(2.7) (LVM/h(2.7)) (P < .001), early diastolic peak flow velocity/early myocardial diastolic velocity ratio (E/Em ratio), a TDI index of diastolic function (P < .001), and 24-h UAER (P < .05) were significantly higher in the group with MS, whereas peak myocardial systolic velocity (Sm), a TDI index of systolic function (P < .001), was lower. Serum levels of CRP (P < .001), TNF-alpha (P < .05), TGF-beta (P < .01), and PICP (P < .001) were significantly increased in MS. These markers were significantly related to higher LVMI(2.7), higher E/Em ratio, and increased 24-h UAER and a lower Sm in the whole population, with a further significant enhancement in MS.. Cardiovascular damage is more frequent in hypertensives with MS than in hypertensives without MS, and this is significantly related to the increased levels of inflammation and fibrosis found in hypertensives with MS.

Topics: Albuminuria; Biomarkers; Blood Pressure; C-Reactive Protein; Cardiovascular Diseases; Case-Control Studies; Diastole; Female; Fibrosis; Humans; Hypertension; Hypertrophy, Left Ventricular; Inflammation; Male; Metabolic Syndrome; Middle Aged; Peptide Fragments; Procollagen; Systole; Transforming Growth Factor beta; Tumor Necrosis Factor-alpha

Topics: Cardiovascular Diseases; Diet; Forkhead Transcription Factors; Gene Expression Regulation; Humans; Insulin Resistance; Obesity; Oxidative Stress; Plasminogen Activator Inhibitor 1; Stroke; Transforming Growth Factor beta; Transforming Growth Factor beta1

Nucleic acid medicines such as antisense DNA, antisense peptide nucleic acid (PNA), ribozyme, and decoy are expected to be novel therapeutic strategy for sever diseases which are resistant to present therapy. We have developed antisense DNA, antisense PNA and ribozyme targeting platelet-derived growth factor (PDGF) A-chain and transforming growth factor-beta1 (TGF-beta1) for arterial proliferative diseases such as coronary artery stenosis after angioplasty or stent implantation, hypertensive vascular diseases and atherosclerosis, and progressive renal diseases. Antisense DNA to PDGF A-chain inhibited arterial growth in spontaneously hypertensive rats without lowering blood pressure and inhibited the neointima formation of pig coronary artery after stent implantation. Ribozymes to PDGF A-chain and TGF-beta1 specifically inhibited the target transcripts and prevented the neointima formation. Ribozymes to TGF-beta1 improved renal damages in hypertensive rats. These nucleic acid medicines targeting PDGF A-chain and TGF-beta1 will be feasible gene therapies for the arterial proliferative diseases and progressive renal diseases. Pyrrole-imidazole polyamides are novel gene silencing compound, which bind to minor grove of double strand DNA by base-specific manner to inhibit gene expression. We developed pyrrole-imidazole polyamide to TGF-beta1 and confirmed that the polyamide binds to the TGF-beta1 promoter. The polyamide inhibited TGF-beta1 promoter activity and decreased expression of TGF-beta1 in vitro and in vivo. The polyamide markedly improved the renal injury in hypertensive rats. The pyrrole-imidazole polyamide will be a novel gene silencing agent for cardiovascular and renal diseases.

Topics: Amides; Animals; Base Sequence; Cardiovascular Diseases; DNA, Antisense; Gene Silencing; Genetic Therapy; Hypertension, Renovascular; Imidazoles; Kidney Diseases; Male; Oligonucleotides, Antisense; Platelet-Derived Growth Factor; Promoter Regions, Genetic; Pyrroles; Rats; RNA, Catalytic; Swine; Transforming Growth Factor beta; Transforming Growth Factor beta1; Tunica Intima

Topics: Cardiovascular Diseases; Carotid Stenosis; Collagen; Follow-Up Studies; Humans; Longitudinal Studies; Procollagen; Prospective Studies; Time; Transforming Growth Factor beta; Transforming Growth Factor beta1

Cardiovascular events are the leading causes of morbidity and mortality in renal transplant recipients (RTR). Given the role of inflammation in atherosclerosis, the contribution of functional polymorphisms of cytokines to cardiovascular diseases (CVD) was assessed in RTR in this study. Polymorphisms of tumour necrosis factor alpha (TNF-alpha) gene [-308 (G-->A), -238 (G-->A)], interleukin-10 (IL-10) gene [-1082(A-->G), -819 (T-->C), -592 (A-->C)], transforming growth factor beta 1 (TGF-beta1) gene [codon 10 (T-->C), codon 25 (G-->C)], carotis intima media thickness (CIMT), left ventricular mass index (LVMI), 24-h ambulatory blood pressure and serum lipoprotein homocysteine level, erythrocyte sedimentation rate, serum C-reactive protein (CRP) and serum fibrinogen level of RTR were determined. Seventy-two RTR (26 cadaveric allograft, 46 living-related allograft, 43 male, 29 female) were included in this study. LVMI were similar in TNF-alpha, IL-10 and TGF-beta1 genotypes. Right and left CIMT were higher in TT genotype (n = 16) than CT (n = 46) and CC (n = 10) genotypes of TGF-beta1 codon 10 (T-->C) gene polymorphism (RCIMT, 7.7 +/- 2.2 mm vs. 7.0 +/- 1.4 mm vs. 5.9 +/- 1.4 mm, P = 0.025; LCIMT, 8.5 +/- 2.5 mm vs. 7.0 +/- 1.3 mm vs. 6.1 +/- 1.2 mm, P = 0.002). Lipoprotein (a) level of TT genotype (35.5 +/- 22.5 mg/dl) was higher than CC (4.1 +/- 2.8 mg/dl) and CT (20.4 +/- 11.2 mg/dl) genotypes of TGF-beta1 codon 10 (T-->C) gene polymorphism (P = 0.037). High producers of cytokine IL-10 -1082 [GG (n = 22) vs. AA + AG (n = 50)] and low producers of TGF-beta codon 25 [GC + CC (n = 17) vs. GG (n = 55)] had lower IMT of carotid artery but the difference did not reach statistical significance (P > 0.05). The CIMT of renal transplant patients was similar in IL-10 (-819, -592) and TNF-alpha (-308, -238) genotypes. No difference was observed in 24-h ambulatory blood pressure levels, serum lipoproteins, plasma homocysteine level, erythrocyte sedimentation rate, serum CRP, serum fibrinogen level in IL-10, TNF-alpha and TGF-beta1 genotypes. Besides the well-known factors, TGF-beta1 gene polymorphisms might play a role in CVD in RTR even at early stages of asymptomatic atherosclerosis.

Topics: Adult; Cardiovascular Diseases; Carotid Arteries; Cytokines; Female; Genotype; Homocysteine; Humans; Hypertrophy, Left Ventricular; Kidney Transplantation; Lipoprotein(a); Male; Middle Aged; Polymorphism, Genetic; Transforming Growth Factor beta; Tumor Necrosis Factor-alpha; Tunica Intima

Asymmetric dimethylarginine (ADMA) is a naturally occurring inhibitor of nitric oxide synthesis that accumulates in a wide range of diseases associated with endothelial dysfunction and enhanced atherosclerosis. Clinical studies implicate plasma ADMA as a major novel cardiovascular risk factor, but the mechanisms by which low concentrations of ADMA produce adverse effects on the cardiovascular system are unclear.. We treated human coronary artery endothelial cells with pathophysiological concentrations of ADMA and assessed the effects on gene expression using U133A GeneChips (Affymetrix). Changes in several genes, including bone morphogenetic protein 2 inducible kinase (BMP2K), SMA-related protein 5 (Smad5), bone morphogenetic protein receptor 1A, and protein arginine methyltransferase 3 (PRMT3; also known as HRMT1L3), were confirmed by Northern blotting, quantitative PCR, and in some instances Western blotting analysis to detect changes in protein expression. To determine whether these changes also occurred in vivo, tissue from gene deletion mice with raised ADMA levels was examined. More than 50 genes were significantly altered in endothelial cells after treatment with pathophysiological concentrations of ADMA (2 microM). We detected specific patterns of changes that identify pathways involved in processes relevant to cardiovascular risk and pulmonary hypertension. Changes in BMP2K and PRMT3 were confirmed at mRNA and protein levels, in vitro and in vivo.. Pathophysiological concentrations of ADMA are sufficient to elicit significant changes in coronary artery endothelial cell gene expression. Changes in bone morphogenetic protein signalling, and in enzymes involved in arginine methylation, may be particularly relevant to understanding the pathophysiological significance of raised ADMA levels. This study identifies the mechanisms by which increased ADMA may contribute to common cardiovascular diseases and thereby indicates possible targets for therapies.

Topics: Arginine; Atherosclerosis; Bone Morphogenetic Protein 2; Bone Morphogenetic Protein Receptors, Type I; Bone Morphogenetic Proteins; Cardiovascular Diseases; Cell Culture Techniques; Endothelial Cells; Gene Expression Profiling; Gene Expression Regulation; Humans; Hypertension, Pulmonary; Oligonucleotide Array Sequence Analysis; Protein-Arginine N-Methyltransferases; Smad5 Protein; Transforming Growth Factor beta

There is little information whether cardiac capillary supply is deranged in diabetes. Hyperglycaemia is a potent stimulus for endothelin-1 (ET-1) production. We therefore hypothesised that increased ET-1 production in Streptozotocin-induced Type 1 diabetes causes abnormalities of cardiac capillaries and the aorta. To this end we compared the effects of an ET receptor A blocker (ETA-RB) with that of an ACE-inhibitor (ACE-i) or their combination in rats with Streptozotocin (STZ) diabetes.. Sprague Dawley rats were injected with 65 mg STZ i.v. and subsequently developed diabetes. Rats were left untreated or received daily either the ACE-i Trandolapril, the ETA-RB Darusentan or a combination of both. After 6 months the experiment was terminated and the heart and the aorta were investigated using quantitative morphological techniques.. ACE-i but not ETA-RB lowered blood pressure in STZ Type 1 diabetic rats. Capillary length density was lower in untreated STZ diabetic rats (2932+/-128 mm/mm3) compared to non-diabetic control rats (3410+/-252 mm/mm3). Treatment with ACE-i (3568+/-431 mm/mm3), but not with ETA-RB (2893+/-192 mm/mm3), prevented the decrease in capillary supply. Volume density of the myocardial interstitium was higher in untreated STZ diabetic rats (0.86+/-0.04%) compared to non-diabetic control rats (0.36+/-0.06%). In all three intervention groups the values were lower (ACE-i: 0.53+/-0.05%, ETA-RB: 0.7+/-0.08% and combination: 0.69+/-0.1).. Our study identifies a capillary defect of the heart in STZ diabetes, i.e. decreased capillary supply. This abnormality was reversed by ACE-i, but not by ETA-R blockade. A similar trend, although not complete normalisation, was seen in cardiac fibrosis.

Topics: Albuminuria; Angiotensin-Converting Enzyme Inhibitors; Animals; Aorta, Thoracic; Arterioles; Blood Glucose; Blood Pressure; Body Weight; Cardiovascular Diseases; Collagen Type IV; Coronary Vessels; Diabetes Mellitus, Experimental; Endothelin A Receptor Antagonists; Endothelin-1; Fibrosis; Gene Expression; Heart; Immunohistochemistry; In Situ Hybridization; Indoles; Male; Myocardium; Phenylpropionates; Pyrimidines; Rats; Rats, Sprague-Dawley; Receptor, Endothelin A; Transforming Growth Factor beta

Atherosclerotic vascular disease is a leading cause of morbidity and mortality in patients with end-stage renal disease (ESRD) on maintenance hemodialysis (HD). Transforming growth factor-beta1 (TGF-beta1) is a multifunctional cytokine that inhibits the atheromatous process. We studied coding region polymorphisms of the TGF-beta1 gene (+869 T --> C at codon 10 and +915 G --> C at codon 25) as genetic susceptibility factors for prevalent vascular disease and cardiac outcomes in a cohort of HD patients enrolled in the HEMO Study.. Genotyping was carried out using polymerase chain reaction-sequence specific primer (PCR-SSP) methods with a cytokine genotyping tray. Prevalent vascular disease was coded from the Index of Disease Severity (IDS) scores for ischemic heart disease (IHD), peripheral vascular disease (PVD), cerebrovascular disease (CVD), and congestive heart failure (CHF), 0 indicating absence, and 1 to 3 increasing grades of severity. The presence of any vascular disease (VD) (i.e., any degree of IHD/PVD/CVD), and the number of coexistent vascular system diseases per patient were derived. Cardiac outcomes, one of the secondary outcomes of the HEMO Study, were expressed as a composite of the first hospitalization for, or death from, cardiac causes.. The cohort consisted of 183 patients at enrollment, 56% male, 44% African American (AA), and 40% diabetic. The mean age was 62.4 +/- 12.2 years, and median dialysis vintage 2.02 years. The most frequent genotype at codon 10 was T/C (67%), and at codon 25 was G/G (72%). IHD was present in 52% of patients; 65% had at least one vascular system involvement, and 31% had 2 or more. On both univariate and multivariate analysis, the G/C genotype at codon 25 was significantly associated with the presence and extent of vascular disease at enrollment. The median time to cardiac outcome, defined as a composite of the first hospitalization for, or death from, cardiac causes, was 411 days in patients with the G/C genotype compared with 851 days in those with the G/G genotype (P= 0.03). Patients with the G/C genotype had a 1.6-fold increased hazard for cardiac outcomes after adjustment for baseline covariates (P= 0.04).. The G/C substitution at codon 25 was associated with an increased risk for prevalent vascular disease, new onset cardiac morbidity, and cardiac mortality in HD patients, and may be a genetic susceptibility factor for the development of atherosclerosis. Further studies are required to evaluate the role of TGF-beta1 as a candidate gene.

Topics: Aged; Cardiovascular Diseases; Codon; Cohort Studies; Cytosine; Death; Female; Genetic Predisposition to Disease; Genotype; Guanine; Hospitalization; Humans; Male; Middle Aged; Polymorphism, Genetic; Renal Dialysis; Transforming Growth Factor beta; Transforming Growth Factor beta1

Topics: Adolescent; Adult; Blood Pressure; Cardiovascular Diseases; Cyclosporine; Female; Heart Transplantation; Humans; Immunosuppressive Agents; Male; Middle Aged; Postoperative Complications; Reverse Transcriptase Polymerase Chain Reaction; Risk Factors; RNA, Messenger; Tacrolimus; Transcription, Genetic; Transforming Growth Factor beta; Transplantation, Homologous

Chronic inhibition of endothelial NO synthesis by the administration of N(G)-nitro-L-arginine methyl ester (L-NAME) to rats induces early vascular inflammation (monocyte infiltration into coronary vessels and monocyte chemoattractant protein-1 expression) as well as subsequent arteriosclerosis. The small GTPase Rho controls cell adhesion, motility, and proliferation and is activated by several growth factors such as angiotensin II. We investigated the effect of a specific inhibitor of Rho-kinase, Y-27632, in rats treated with L-NAME to determine the role of the Rho/Rho-kinase pathway in the development of arteriosclerosis. We found here increased activity of Rho/Rho-kinase after L-NAME administration and its prevention by angiotensin II type 1 receptor blockade. Hydralazine or lecithinized superoxide dismutase (l-SOD) did not affect Rho/Rho-kinase activity. Co-treatment with Y-27632 did not affect the L-NAME-induced increase in cardiovascular tissue ACE activity or L-NAME-induced decrease in plasma NO concentrations, but did prevent the L-NAME-induced early inflammation and late coronary arteriosclerosis. In addition, Y-27632 prevented the increased gene expression of monocyte chemoattractant protein-1 and transforming growth factor-beta1 as well as cardiac fibrosis and glomerulosclerosis. These findings suggest that increased activity of Rho/Rho-kinase pathway mediated via the angiotensin II type 1 receptor may thus be important in the pathogenesis of early vascular inflammation and late remodeling induced by chronic inhibition of NO synthesis. The beneficial effects of Rho-kinase inhibition are not mediated by restoration of NO production. The Rho-kinase pathway could be a new therapeutic target for treatment of vascular diseases.

Topics: Actins; Amides; Animals; Benzimidazoles; Biphenyl Compounds; Blood Pressure; Cardiovascular Diseases; Chemokine CCL2; Coronary Vessels; Enzyme Inhibitors; Hydralazine; Immunohistochemistry; Inflammation; Intracellular Signaling Peptides and Proteins; Kidney Glomerulus; Muscle, Smooth; Myosins; NF-kappa B; NG-Nitroarginine Methyl Ester; Nitric Oxide; Nitric Oxide Synthase; Peptidyl-Dipeptidase A; Phosphorylation; Proliferating Cell Nuclear Antigen; Protein Serine-Threonine Kinases; Pyridines; Rats; Rats, Inbred WKY; rho-Associated Kinases; RNA, Messenger; Superoxide Dismutase; Tetrazoles; Time Factors; Transforming Growth Factor beta; Transforming Growth Factor beta1

Aldosterone is implicated in cardiac hypertrophy and fibrosis. We tested the role of the mineralocorticoid receptor in a model of angiotensin II-induced cardiac injury. We administered spironolactone (SPIRO; 20 mg. kg(-1). d(-1)), valsartan (VAL; 10 mg. kg(-1). d(-1)), or vehicle to rats double transgenic for the human renin and angiotensinogen genes (dTGR). We investigated basic fibroblast growth factor (bFGF), platelet-derived growth factor, transforming growth factor-beta(1), and the transcription factors AP-1 and nuclear factor (NF)-kappaB. We used immunohistochemistry, electrophoretic mobility shift assays, and TaqMan RT-PCR. Untreated dTGR developed hypertension, cardiac hypertrophy, vasculopathy, and fibrosis with a 50% mortality rates at 7 weeks. SPIRO and VAL prevented death and reversed cardiac hypertrophy, while only VAL normalized blood pressure. Both drugs prevented vasculopathy. bFGF was markedly upregulated in dTGR, whereas platelet-derived growth factor-B and transforming growth factor-beta(1) were little changed. VAL and SPIRO suppressed this upregulation. Both AP-1 and NF-kappaB were activated in dTGR compared with controls. VAL and SPIRO reduced both transcription factors and reduced bFGF, collagen I, fibronectin, and laminin in the interstitium. These findings show that aldosterone promotes hypertrophy, cardiac remodeling, and fibrosis, independent of blood pressure. The effects involve AP-1, NF-kappaB, and bFGF. Mineralocorticoid receptor blockade downregulates these effectors and reduces angiotensin II-induced cardiac damage.

Topics: Aldosterone; Angiotensin II; Animals; Animals, Genetically Modified; Blood Pressure; Body Weight; Cardiovascular Diseases; Fibroblast Growth Factor 2; Heart; Immunohistochemistry; Mineralocorticoid Receptor Antagonists; NF-kappa B; Organ Size; Platelet-Derived Growth Factor; Rats; Receptors, Mineralocorticoid; Renin; Reverse Transcriptase Polymerase Chain Reaction; RNA, Messenger; Spironolactone; Tetrazoles; Transcription Factor AP-1; Transforming Growth Factor beta; Valine; Valsartan

Transforming growth factor-beta(2) (TGF-beta(2)) is a member of a family of growth factors with the potential to modify multiple processes. Mice deficient in the TGF-beta(2) gene die around birth and show a variety of defects of different organs, including the heart.. We studied the hearts of TGF-beta(2)-null mouse embryos from 11.5 to 18.5 days of gestation to analyze the types of defects and determine which processes of cardiac morphogenesis are affected by the absence of TGF-beta(2). Analysis of serial sections revealed malformations of the outflow tract (typically a double-outlet right ventricle) in 87.5%. There was 1 case of common arterial trunk. Abnormal thickening of the semilunar valves was seen in 4.2%. Associated malformations of the atrioventricular (AV) canal were found in 62.5% and were composed of perimembranous inlet ventricular septal defects (37.5%), AV valve thickening (33.3%), overriding tricuspid valve (25.0%), and complete AV septal defects (4.2%). Anomalies of the aorta and its branches were seen in 33.3%. Immunohistochemical staining showed failure of myocardialization of the mesenchyme of the atrial septum and the ventricular outflow tract as well as deficient valve differentiation. Morphometry documented this to be associated with absence of the normal decrease of total endocardial cushion volume in the older stages. Apoptosis in TGF-beta(2)-knockout mice was increased, although regional distribution was normal.. TGF-beta(2)-knockout mice exhibited characteristic cardiovascular anomalies comparable to malformations seen in the human population.

Topics: Animals; Apoptosis; Cardiomyopathies; Cardiovascular Diseases; Cell Differentiation; Embryo, Mammalian; Endocardium; Genotype; Heart Ventricles; In Situ Nick-End Labeling; Mice; Mice, Knockout; Phenotype; Time Factors; Transforming Growth Factor beta; Transforming Growth Factor beta2; Tricuspid Valve

We previously reported that chronic inhibition of nitric oxide (NO) synthesis with N(omega)-nitro-L-arginine methyl ester (L-NAME) induces inflammatory changes (monocyte infiltration, myofibroblast formation, and monocyte chemoattractant protein-1 [MCP-1] and transforming growth factor-beta1 [TGF-beta1] expression) in the rat heart and vessel. There is debate regarding whether TGF-beta1 exhibits proinflammatory or anti-inflammatory activities. We used the rat model to investigate the role of TGF-beta in the pathogenesis of such inflammatory changes. We show here that infiltrating monocytes and myofibroblasts in the inflammatory lesions produced TGF-beta1 on the third day of L-NAME administration. Cotreatment with a monoclonal antibody against TGF-beta1, but not with control IgG, prevented the L-NAME-induced cardiac inflammation. The antibody also significantly inhibited the gene expression of MCP-1, P-selectin, and intercellular adhesion molecule-1. In summary, the antibody against TGF-beta1 prevented inflammatory changes in rat heart and vessel induced by chronic inhibition of NO synthesis, suggesting that increased production of TGF-beta1 is involved in the inflammatory changes in this model.

Topics: Animals; Antibodies, Monoclonal; Cardiovascular Diseases; Chemokine CCL2; Coronary Vessels; Gene Expression; Heart; Inflammation; Intercellular Adhesion Molecule-1; Male; Monocytes; Myocardium; NG-Nitroarginine Methyl Ester; Nitric Oxide; P-Selectin; Rats; Rats, Inbred WKY; RNA, Messenger; Transforming Growth Factor beta

Because hepatocyte growth factor (HGF) is a member of the endothelium-specific growth factors, we hypothesized that HGF may play a role in cardiovascular disease. Therefore we first examined the role of local HGF production in endothelial cell (EC) growth. Addition of anti-HGF antibody to EC resulted in a significant decrease in EC number. Moreover, coculture of vascular smooth muscle cells (VSMC) with EC resulted in an increase in EC number that was completely inhibited by anti-HGF antibody, suggesting that HGF secreted from EC and VSMC regulates EC growth in an autocrine-paracrine manner. Interestingly, transforming growth factor (TGF)-ss significantly decreased HGF secretion from EC, whereas interleukin 6 stimulated immunoreactive HGF secretion. In human VSMC, TGF-ss and angiotensin II suppressed local HGF production in a dose-dependent manner. Interestingly, anti-TGF-beta antibody resulted in significant but not complete inhibition of the decrease in local HGF production. To further study the regulation of local HGF production, we used a coculture system. Coculture of VSMC with EC resulted in a significant decrease in local HGF secretion. The decrease in local HGF production by coculture was significantly attenuated by anti-TGF-beta antibody, suggesting that inhibition of local HGF production in the coculture system was due to TGF-beta activation. Moreover, a further decrease in local HGF production in the coculture system by angiotensin II was also observed. Finally, we studied the role of angiotensin II in the regulation of the local HGF system in vivo by using a balloon injury rat model. Of importance, local HGF production was significantly decreased in balloon-injured arteries compared with intact vessels, accompanied by a reduction of HGF mRNA. An angiotensin-converting enzyme inhibitor (cilazapril) or an angiotensin II type 1 receptor antagonist (E-4177) significantly stimulated local vascular HGF production associated with the inhibition of neointimal formation after balloon injury compared with vehicle. In contrast, hydralazine did not alter local HGF production or neointimal formation despite decreasing blood pressure to a similar level as that in rats treated with cilazapril or E-4177. Overall, local HGF secretion from vascular cells was negatively regulated by TGF-beta and angiotensin II. The present study also demonstrated that blockade of angiotensin II significantly inhibited neointimal formation, accompanied by a significant increase in

Topics: Angiotensin II; Animals; Autocrine Communication; Cardiovascular Diseases; Carotid Arteries; Carotid Artery Injuries; Cells, Cultured; Cytokines; Endothelium, Vascular; Hepatocyte Growth Factor; Humans; Male; Muscle, Smooth, Vascular; Polymerase Chain Reaction; Rats; Rats, Inbred WKY; Transforming Growth Factor beta; Vasoconstrictor Agents

Obesity is known to predispose to attenuated fibrinolysis attributable to increased concentrations in plasma of type-1 plasminogen activator inhibitor (PAI-1), the primary physiological inhibitor of endogenous fibrinolysis. PAI-1 is present in neointimal vascular smooth muscle cells and lipid-laden macrophages.. The present study was designed to determine whether PAI-1 expression occurs in adipose tissue as well, thereby potentially contributing to increased cardiovascular risk associated with obesity. 3T3-L1 preadipocytes were differentiated into adipocytes by exposing them to isobutylxanthine (0.5 mmol/L) and dexamethasone (0.25 mumol/L) over 7 days and incubated for 24 hours with transforming growth factor-beta (TGF-beta), known to augment PAI-1 synthesis in several cell types and to be released from platelets when they are activated. TGF-beta increased PAI-1 activity in the conditioned media of the 3T3-L1-derived cells in a concentration-dependent fashion without significantly affecting cell proliferation. Western blotting and immunoprecipitation of 35S-labeled PAI-1 showed that the increased PAI-1 activity paralleled increased PAI-1 protein. Northern blotting showed that increased PAI-1 mRNA preceded increased accumulation of PAI-1 activity and protein in the conditioned media. Furthermore, TGF-beta (10 ng/g body wt) administered in vivo increased PAI-1 activity in mouse plasma and PAI-1 mRNA expression in mouse adipose tissue.. Increased plasma PAI-1 activity in obese human subjects may result from PAI-1 release from an increased mass of adipose tissue, particularly in association with thrombosis and elaboration of TGF-beta from platelet alpha-granules into the circulation. The increased PAI-1 may exacerbate vascular disease by shifting the balance between thrombosis and thrombolysis toward thrombosis and consequently exposing luminal surfaces of vessels to mitogens associated with microthrombi over protracted intervals.

Topics: Adipocytes; Animals; Cardiovascular Diseases; Cell Differentiation; Cell Division; Cell Line; Dose-Response Relationship, Drug; Mice; Obesity; Plasminogen Activator Inhibitor 1; Risk Factors; RNA, Messenger; Transforming Growth Factor beta

Topics: Animals; Cardiovascular Diseases; DNA, Antisense; Genes, ras; Hypertension; Molecular Sequence Data; Muscle, Smooth, Vascular; Rats; Rats, Inbred SHR; Rats, Inbred WKY; RNA, Antisense; Transcription, Genetic; Transforming Growth Factor beta