coenzyme-q10 has been researched along with Nephrotic-Syndrome* in 18 studies
2 review(s) available for coenzyme-q10 and Nephrotic-Syndrome
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Primary coenzyme Q10 nephropathy, a potentially treatable form of steroid-resistant nephrotic syndrome.
Steroid-resistant nephrotic syndrome (SRNS) is a genetically heterogeneous kidney disease that is the second most frequent cause of kidney failure in the first 2 decades of life. Despite the identification of mutations in more than 39 genes as causing SRNS, and the localization of its pathogenesis to glomerular podocytes, the disease mechanisms of SRNS remain poorly understood and no universally safe and effective therapy exists to treat patients with this condition. Recently, genetic research has identified a subgroup of SRNS patients whose kidney pathology is caused by primary coenzyme Q10 (CoQ10) deficiency due to recessive mutations in genes that encode proteins in the CoQ10 biosynthesis pathway. Clinical and preclinical studies show that primary CoQ10 deficiency may be responsive to treatment with CoQ10 supplements bypassing the biosynthesis defects. Coenzyme Q10 is an essential component of the mitochondrial respiratory chain, where it transports electrons from complexes I and II to complex III. Studies in yeast and mammalian model systems have recently identified the molecular functions of the individual CoQ10 biosynthesis complex proteins, validated these findings, and provided an impetus for developing therapeutic compounds to replenish CoQ10 levels in the tissues/organs and thus prevent the destruction of tissues due to mitochondrial OXPHOS deficiencies. In this review, we will summarize the clinical findings of the kidney pathophysiology of primary CoQ10 deficiencies and discuss recent advances in the development of therapies to counter CoQ10 deficiency in tissues. Topics: Drug Resistance; Humans; Nephrotic Syndrome; Steroids; Ubiquinone | 2021 |
Early-onset COQ8B (ADCK4) glomerulopathy in a child with isolated proteinuria: a case report and literature review.
Herein, a 3-year-old boy presented with hidden-onset isolated proteinuria was reported. The disease was induced by COQ8B (previously termed ADCK4) compound heterozygous variants, including c.[271C > T] and c.[737G > A], which were inherited from his father and mother, respectively.. The patient visited our clinic due to non-nephrotic range proteinuria for 3 months, but no obvious abnormality was detected in the vital signs or laboratory test results. Renal histopathology revealed mitochondrial nephropathy, which manifested as mild glomerular abnormalities under light microscope, together with mitochondrial proliferation and hypertrophy and crowded arrangement under electron microscope. As suggested by whole exome sequencing, the patient inherited the COQ8B compound heterozygous variants from both of his parents who showed normal phenotype. After literature review, it was confirmed that one of the variant site (c.[271C > T]) had not been reported among the East Asian populations so far.. Steroid-resistant nephrotic syndrome and focal segmental glomerulosclerosis are the most common phenotypes and renal histopathological manifestations of COQ8B variant. Nonetheless, our case shows that such variant may have hidden and mild clinical manifestations at the early onset. Therefore, early diagnosis will help to identify children at the early disease stage who have opportunity to benefit from oral coenzyme Q10 supplementation. Topics: Child, Preschool; Family; Genotype; Glomerulosclerosis, Focal Segmental; Humans; Kidney; Male; Mutation; Nephrotic Syndrome; Phenotype; Protein Kinases; Proteinuria; Ubiquinone | 2020 |
16 other study(ies) available for coenzyme-q10 and Nephrotic-Syndrome
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Oral Coenzyme Q10 supplementation leads to better preservation of kidney function in steroid-resistant nephrotic syndrome due to primary Coenzyme Q10 deficiency.
Primary Coenzyme Q10 (CoQ Topics: Ataxia; Dietary Supplements; Humans; Kidney; Mitochondrial Diseases; Muscle Weakness; Mutation; Nephrotic Syndrome; Proteinuria; Steroids; Ubiquinone | 2022 |
Effects of CoQ10 Replacement Therapy on the Audiological Characteristics of Pediatric Patients with
Primary coenzyme Q10 (CoQ10) deficiency refers to a group of mitochondrial cytopathies caused by genetic defects in CoQ10 biosynthesis. Primary coenzyme Q10 deficiency-6 (COQ10D6) is an autosomal recessive disorder attributable to biallelic Topics: Ataxia; Deafness; Hearing Loss, Sensorineural; Humans; Mitochondrial Diseases; Muscle Weakness; Nephrotic Syndrome; Steroids; Ubiquinone | 2022 |
Coenzyme Q10 (CoQ10) is involved in the biosynthesis of adenosine triphosphate (ATP), and is most abundant in the mitochondrial membrane. The primary CoQ10 deficiency caused by. Clinical and pathological data and peripheral blood samples of 2 siblings with steroid-resistant nephrotic syndrome (SRNS) and their family members of a Chinese pedigree were collected. DNA was extracted and subjected to next-generation sequencing of target genes of hereditary nephropathy.. Compound heterozygous mutations of. The 2 cases harboring Topics: Alkyl and Aryl Transferases; Child, Preschool; China; Female; Glomerulosclerosis, Focal Segmental; Humans; Infant; Male; Mitochondrial Diseases; Mutation; Nephrotic Syndrome; Pedigree; Proteinuria; Siblings; Ubiquinone | 2021 |
COQ8B nephropathy: Early detection and optimal treatment.
Mutations in COQ8B (*615567) as a defect of coenzyme Q10 (CoQ10) cause steroid resistant nephrotic syndrome (SRNS).. To define the clinical course and prognosis of COQ8B nephropathy, we retrospectively assessed the genotype and phenotype in patients with COQ8B mutations from Chinese Children Genetic Kidney Disease Database. We performed the comparing study of renal outcome following CoQ10 treatment and renal transplantation between early genetic detection and delayed genetic detection group.. We identified 20 (5.8%) patients with biallelic mutations of COQ8B screening for patients with SRNS, non-nephrotic proteinuria, or chronic kidney disease (CKD) of unknown origin. Patients with COQ8B mutations showed a largely renal-limited phenotype presenting with proteinuria and/or advanced CKD at the time of diagnosis. Renal biopsy uniformly showed focal segmental glomerulosclerosis. Proteinuria was decreased, whereas the renal function was preserved in five patients following CoQ10 administration combined with angiotensin-converting enzyme (ACE) inhibitor. The renal survival analysis disclosed a significantly better outcome in early genetic detection group than in delayed genetic detection group (Kaplan-Meier plot and log rank test, p = .037). Seven patients underwent deceased donor renal transplantation without recurrence of proteinuria or graft failure. Blood pressure showed decreased significantly during 6 to 12 months post transplantation.. COQ8B mutations are one of the most common causes of adolescent-onset proteinuria and/or CKD of unknown etiology in the Chinese children. Early detection of COQ8B nephropathy following CoQ10 supplementation combined with ACE inhibitor could slow the progression of renal dysfunction. Renal transplantation in patients with COQ8B nephropathy showed no recurrence of proteinuria. Topics: Adolescent; Angiotensin-Converting Enzyme Inhibitors; Child; Early Diagnosis; Female; Genetic Testing; Graft Rejection; Humans; Kidney; Kidney Transplantation; Male; Mutation; Nephrotic Syndrome; Phenotype; Postoperative Complications; Protein Kinases; Ubiquinone | 2020 |
Primary coenzyme Q10 Deficiency-6 (COQ10D6): Two siblings with variable expressivity of the renal phenotype.
Primary coenzyme Q10 deficiency-6 (COQ10D6) is a rare autosomal recessive disorder caused by COQ6 mutations. The main clinical manifestations are infantile progressive nephrotic syndrome (NS) leading to end-stage renal disease and sensorineural deafness. A 7-year-old girl was diagnosed with steroid-resistant NS (SRNS) and an audiological work-up revealed bilateral sensorineural deafness. A renal biopsy demonstrated focal segmental glomerulosclerosis. Despite immunosuppressive therapy, her serum levels of creatinine increased and haemodialysis was indicated within 1 year after the diagnosis. Living-donor kidney transplantation was performed in the eighth month of haemodialysis. A diagnostic custom-designed panel-gene test including 30 genes for NS revealed homozygous c.1058C > A [rs397514479] in exon nine of COQ6. Her older brother, who had sensorineural hearing loss with no renal or neurological involvement, had the same mutation in homozygous form. COQ6 mutations should be considered not only in patients with SRNS with sensorineural hearing loss but also in patients with isolated sensorineural hearing loss with a family history of NS. The reported p.His174 variant of COQ8B was suggested to be a risk factor for secondary CoQ deficiency, while p.Arg174 appeared to improve the condition in a yeast model. Family segregation and the co-occurrence of biallelic p.Arg174 of COQ8B in a brother with hearing loss implied that the interaction of the altered COQ8B with the mutant COQ6 alleviated the symptoms in this family. CoQ10 replacement therapy should be initiated for these patients, as primary CoQ10 deficiency is considered the only known treatable mitochondrial disease. Topics: Ataxia; Child; Female; Homozygote; Humans; Kidney; Kidney Failure, Chronic; Male; Mitochondrial Diseases; Muscle Weakness; Mutation; Nephrotic Syndrome; Phenotype; Siblings; Ubiquinone | 2020 |
Successful maintenance of partial remission in a child with COQ2 nephropathy by coenzyme Q10 treatment.
Topics: Biomarkers; Female; Humans; Infant; Nephrotic Syndrome; Ubiquinone; Vitamins | 2020 |
Long-term follow-up results of patients with ADCK4 mutations who have been diagnosed in the asymptomatic period: effects of early initiation of CoQ10 supplementation.
Atmaca M, Gülhan B, Atayar E, Karabay Bayazıt A, Candan C, Arıcı M, Topaloğlu R, Özaltın F. Long-term follow-up results of patients with ADCK4 mutations who have been diagnosed in the asymptomatic period: effects of early initiation of CoQ10 supplementation. Turk J Pediatr 2019; 61: 657-663. ADCK4-related glomerulopathy is a recently recognized clinical entity associated with insidious onset in young children and a high potential to progress to chronic kidney disease in adolescents. Early initiation of exogenous coenzyme Q10 (CoQ10) supplementation in the asymptomatic period could be protective on renal functions. In the present study, we aimed to investigate long-term follow-up of patients that we have diagnosed during the asymptomatic period and in whom we started CoQ10 treatment. We analyzed long-term effects of CoQ10 on proteinuria and estimated glomerular filtration rate (eGFR) in this patient population. A total of 8 patients (4 female, 4 male) from 6 different families were included. The mean age at diagnosis and at last visit were 16.8±11.2 years and 20.7±11.7 years, respectively. None of the patients had extrarenal system involvement. At the time of initiation of treatment; median eGFR was 107.8 ml/min/1.73 m2, median proteinuria was 1008 mg/m2/day. After a median follow-up period of 25.3±5.8 months, median proteinuria decreased to 318.5 mg/m2/day (p=0.03) and median eGFR remained stable at 99.6 ml/min/1.73 m2 (p=0.21). Coenzyme Q10 treatment is effective for reducing proteinuria and seems to be renoprotective. Topics: Adolescent; Adult; Asymptomatic Diseases; Child; Child, Preschool; Dietary Supplements; Early Diagnosis; Female; Follow-Up Studies; Genetic Markers; Humans; Male; Mutation; Nephrotic Syndrome; Protein Kinases; Proteinuria; Ubiquinone; Vitamins; Young Adult | 2019 |
Diffuse mesangial sclerosis in a PDSS2 mutation-induced coenzyme Q10 deficiency.
A 7-month-old male infant was admitted because he was suffering from nephrotic syndrome, along with encephalomyopathy, hypertrophic cardiomyopathy, clinically suspected deafness and retinitis pigmentosa, and an elevated serum lactate level.. Coenzyme Q. The results of genetic tests, available postmortem, explored two hitherto undescribed mutations in the PDSS2 gene. Both were located within the polyprenyl synthetase domain. Clinical exome sequencing revealed a heterozygous missense mutation in exon 3, and our in-house joint-analysis algorithm detected a heterozygous large 2923-bp deletion that affected the 5 prime end of exon 8. Other causative defects in the CoQ. Until now, the clinical features and the mutational status of 6 patients with a PDSS2 gene defect have been reported in the English literature. Here, we describe for the first time detailed kidney morphology features in a patient with nephrotic syndrome carrying mutations in the PDSS2 gene. Topics: Alkyl and Aryl Transferases; Ataxia; Autopsy; Fatal Outcome; Genetic Testing; Humans; Infant; Kidney; Male; Mitochondrial Diseases; Muscle Weakness; Mutation; Nephrotic Syndrome; Sclerosis; Ubiquinone | 2018 |
COQ2 nephropathy: a treatable cause of nephrotic syndrome in children.
Nephrotic syndrome can be caused by a subgroup of mitochondrial diseases classified as primary coenzyme Q. We report three pediatric patients with COQ2 variants presenting with nephrotic syndrome. Two of these patients had normal leukocyte CoQ. COQ2 nephropathy should be suspected in patients presenting with nephrotic syndrome, although less common than disease due to mutations in NPHS1, NPHS2, and WT1. The index of suspicion should remain high, and we suggest that providers consider genetic evaluation even in patients with normal leukocyte CoQ Topics: Alkyl and Aryl Transferases; Ataxia; Biopsy; Child; Child, Preschool; Genetic Testing; Humans; Kidney; Kidney Transplantation; Male; Mitochondrial Diseases; Muscle Weakness; Nephrotic Syndrome; Treatment Outcome; Ubiquinone | 2018 |
CoQ
Nephrotic syndrome (NS), a frequent chronic kidney disease in children and young adults, is the most common phenotype associated with primary coenzyme Q Topics: Alkyl and Aryl Transferases; Animals; Antioxidants; Ataxia; Disease Models, Animal; HeLa Cells; Humans; Hydrogen Sulfide; Kidney; Metabolic Networks and Pathways; Mice; Mice, Transgenic; Mitochondria; Mitochondrial Diseases; Muscle Weakness; Nephrotic Syndrome; Oxidation-Reduction; Oxidative Stress; Oxidoreductases Acting on Sulfur Group Donors; Reactive Oxygen Species; Ubiquinone | 2018 |
A Personalized Model of
Clinical studies have identified patients with nephrotic syndrome caused by mutations in genes involved in the biosynthesis of coenzyme Q Topics: Alkyl and Aryl Transferases; Alleles; Animals; Autophagy; Cell Line; Cells, Cultured; Disease Models, Animal; Gene Silencing; Humans; Mitochondria; Mitophagy; Nephrotic Syndrome; Organisms, Genetically Modified; Oxidative Stress; Reactive Oxygen Species; Signal Transduction; Ubiquinone; Vitamins | 2017 |
Further phenotypic heterogeneity of CoQ10 deficiency associated with steroid resistant nephrotic syndrome and novel COQ2 and COQ6 variants.
Topics: Ataxia; Computer Simulation; DNA Mutational Analysis; Female; Humans; Male; Mitochondrial Diseases; Muscle Weakness; Mutation; Nephrotic Syndrome; Pedigree; Ubiquinone | 2017 |
ADCK4 "reenergizes" nephrotic syndrome.
Steroid-resistant nephrotic syndrome has a poor prognosis and often leads to end-stage renal disease development. In this issue of the JCI, Ashraf and colleagues used exome sequencing to identify mutations in the aarF domain containing kinase 4 (ADCK4) gene that cause steroid-resistant nephrotic syndrome. Patients with ADCK4 mutations had lower coenzyme Q10 levels, and coenzyme Q10 supplementation ameliorated renal disease in a patient with this particular mutation, suggesting a potential therapy for patients with steroid-resistant nephrotic syndrome with ADCK4 mutations. Topics: Animals; Humans; Nephrotic Syndrome; Protein Kinases; Ubiquinone | 2013 |
ADCK4 mutations promote steroid-resistant nephrotic syndrome through CoQ10 biosynthesis disruption.
Identification of single-gene causes of steroid-resistant nephrotic syndrome (SRNS) has furthered the understanding of the pathogenesis of this disease. Here, using a combination of homozygosity mapping and whole human exome resequencing, we identified mutations in the aarF domain containing kinase 4 (ADCK4) gene in 15 individuals with SRNS from 8 unrelated families. ADCK4 was highly similar to ADCK3, which has been shown to participate in coenzyme Q10 (CoQ10) biosynthesis. Mutations in ADCK4 resulted in reduced CoQ10 levels and reduced mitochondrial respiratory enzyme activity in cells isolated from individuals with SRNS and transformed lymphoblasts. Knockdown of adck4 in zebrafish and Drosophila recapitulated nephrotic syndrome-associated phenotypes. Furthermore, ADCK4 was expressed in glomerular podocytes and partially localized to podocyte mitochondria and foot processes in rat kidneys and cultured human podocytes. In human podocytes, ADCK4 interacted with members of the CoQ10 biosynthesis pathway, including COQ6, which has been linked with SRNS and COQ7. Knockdown of ADCK4 in podocytes resulted in decreased migration, which was reversed by CoQ10 addition. Interestingly, a patient with SRNS with a homozygous ADCK4 frameshift mutation had partial remission following CoQ10 treatment. These data indicate that individuals with SRNS with mutations in ADCK4 or other genes that participate in CoQ10 biosynthesis may be treatable with CoQ10. Topics: Adolescent; Adrenal Cortex Hormones; Amino Acid Sequence; Animals; Cells, Cultured; Child; Consanguinity; Conserved Sequence; Disease Models, Animal; DNA Mutational Analysis; Drosophila Proteins; Drug Resistance; Exome; Fibroblasts; Gene Knockdown Techniques; Humans; Mitochondria; Molecular Sequence Data; Mutation; Nephrotic Syndrome; Podocytes; Protein Kinases; Rats; Sequence Alignment; Sequence Homology, Amino Acid; Ubiquinone; Young Adult; Zebrafish; Zebrafish Proteins | 2013 |
Early coenzyme Q10 supplementation in primary coenzyme Q10 deficiency.
Topics: Alkyl and Aryl Transferases; Female; Humans; Infant; Kidney Failure, Chronic; Male; Mitochondrial Encephalomyopathies; Mutation, Missense; Nephrotic Syndrome; Proteinuria; Ubiquinone | 2008 |
COQ2 nephropathy: a newly described inherited mitochondriopathy with primary renal involvement.
Primary coenzyme Q(10) (CoQ(10)) deficiency includes a group of rare autosomal recessive disorders primarily characterized by neurological and muscular symptoms. Rarely, glomerular involvement has been reported. The COQ2 gene encodes the para-hydroxybenzoate-polyprenyl-transferase enzyme of the CoQ(10) synthesis pathway. We identified two patients with early-onset glomerular lesions that harbored mutations in the COQ2 gene. The first patient presented with steroid-resistant nephrotic syndrome at the age of 18 months as a result of collapsing glomerulopathy, with no extrarenal symptoms. The second patient presented at five days of life with oliguria, had severe extracapillary proliferation on renal biopsy, rapidly developed end-stage renal disease, and died at the age of 6 months after a course complicated by progressive epileptic encephalopathy. Ultrastructural examination of renal specimens from these cases, as well as from two previously reported patients, showed an increased number of dysmorphic mitochondria in glomerular cells. Biochemical analyses demonstrated decreased activities of respiratory chain complexes [II+III] and decreased CoQ(10) concentrations in skeletal muscle and renal cortex. In conclusion, we suggest that inherited COQ2 mutations cause a primary glomerular disease with renal lesions that vary in severity and are not necessarily associated with neurological signs. COQ2 nephropathy should be suspected when electron microscopy shows an increased number of abnormal mitochondria in podocytes and other glomerular cells. Topics: Acute Kidney Injury; Alkyl and Aryl Transferases; Coenzymes; Electron Transport Chain Complex Proteins; Humans; Infant; Kidney; Male; Mitochondrial Diseases; Muscle, Skeletal; Mutation, Missense; Nephrotic Syndrome; Ubiquinone | 2007 |