phenanthrenes has been researched along with Glomerulonephritis--IGA* in 4 studies
4 other study(ies) available for phenanthrenes and Glomerulonephritis--IGA
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Triptolide promotes autophagy to inhibit mesangial cell proliferation in IgA nephropathy via the CARD9/p38 MAPK pathway.
Mesangial cell proliferation is the most basic pathological feature of immunoglobulin A nephropathy (IgAN); however, the specific underlying mechanism and an appropriate therapeutic strategy are yet to be unearthed. This study aimed to investigate the therapeutic effect of triptolide (TP) on IgAN and the mechanism by which TP regulates autophagy and proliferation of mesangial cells through the CARD9/p38 MAPK pathway.. We established a TP-treated IgAN mouse model and produced IgA1-induced human mesangial cells (HMC) and divided them into control, TP, IgAN, and IgAN+TP groups. The levels of mesangial cell proliferation (PCNA, cyclin D1, cell viability, and cell cycle) and autophagy (P62, LC3 II, and autophagy flux rate) were measured, with the autophagy inhibitor 3-Methyladenine used to explore the relationship between autophagy and proliferation. We observed CARD9 expression in renal biopsies from patients and analyzed its clinical significance. CARD9 siRNA and overexpression plasmids were constructed to investigate the changes in mesangial cell proliferation and autophagy as well as the expression of CARD9 and p-p38 MAPK/p38 MAPK following TP treatment.. Administering TP was safe and effectively alleviated mesangial cell proliferation in IgAN mice. Moreover, TP inhibited IgA1-induced HMC proliferation by promoting autophagy. The high expression of CARD9 in IgAN patients was positively correlated with the severity of HMC proliferation. CARD9/p38 MAPK was involved in the regulation of HMC autophagy and proliferation, and TP promoted autophagy to inhibit HMC proliferation by downregulating the CARD9/p38 MAPK pathway in IgAN.. TP promotes autophagy to inhibit mesangial cell proliferation in IgAN via the CARD9/p38 MAPK pathway. Topics: Animals; Autophagy; CARD Signaling Adaptor Proteins; Cell Division; Cell Proliferation; Cells, Cultured; Diterpenes; Epoxy Compounds; Glomerulonephritis, IGA; Humans; Immunoglobulin A; Mice; p38 Mitogen-Activated Protein Kinases; Phenanthrenes | 2022 |
Triptolide inhibits tonsillar IgA production by upregulating FDC-SP in IgA nephropathy.
IgA nephropathy (IgAN) is primarily resulted of qualitative abnormality of IgA. The occurrence of IgAN is associated with affected tonsils which enhances the IgA production via IgA class switching and immuno-activation. Follicular dendritic cell-secreted protein (FDC-SP) was found to be a negative effect for IgA production in tonsil. The previous studies suggested that Triptolide might reduce IgA production by its immunosuppression role. Given this background, this study investigated the mechanisms underlying the role of Triptolide and FDC-SP in the generation of IgA and IgA class switching in tonsil of IgAN patients. Immunohistochemistry and reverse transcription-polymerase chain reaction revealed that the expression of FDC-SP was increased in the tonsils of IgAN patients with Triptolide treatment compared with those without treatment. Meanwhile, the expression of FDC-SP was negatively correlated with IgA inducing cytokines in the tonsils of IgAN patients treated with Triptolide, due to the significant decreased IgA-bearing cells. The expression of FDC-SP in tonsillar tissue was confirmed by double immunofluorescence. Importantly, Triptolide promoted FDC-SP secretion, and correlated negatively with decreased IgA production in isolated FDC-associated clusters, which had been isolated from patients without TW treatment previously. Our study demonstrated that Triptolide might have an impact on FDC-SP production and downregulation of IgA synthesis in the tonsils of IgAN patients, which could be a promising strategy for therapeutic intervention in IgAN patients. Topics: Adult; Cytokines; Dendritic Cells, Follicular; Diterpenes; Epoxy Compounds; Female; Glomerulonephritis, IGA; Humans; Immunoglobulin A; Immunosuppressive Agents; Male; Palatine Tonsil; Phenanthrenes; Proteins | 2020 |
Efficacy of triptolide on the apoptosis of tonsillar mononuclear cells from patients with IgA nephropathy.
This study aimed to evaluate the extent of apoptosis of tonsillar mononuclear cells (TMCs) derived from patients with IgA nephropathy (IgAN) and the effects of triptolide (TP) on the apoptosis of these TMCs.. TMCs were isolated from tonsillar tissues of patients with IgAN or chronic tonsillitis (control group). Rates of TMCs apoptosis were measured by annexin V-fluorescein isocyanate (FITC)/propidium iodide (PI)-labeled flow cytometry (FCM). Expression levels of Bcl-2 family proteins were quantified by immunohistochemistry of fixed tonsillar sections and Western blot analyzes of TMCs lysates. TMCs from IgAN patients were treated 10, 20, or 30 ng/mL TP for 24 h and then evaluated for viability by the 3-(4,5-dimethyl-2-thiazolyl)-2,5-diphenyl-2H-tetrazolium bromide (MTT) assay, for the percentage of apoptotic cells by FCM, and for the relative expression levels of Bcl-2 family proteins by Western blot analysis.. Compared to TMCs from the control group, TMCs from the IgAN group demonstrated lower rates of apoptosis, higher expression levels of the anti-apoptosis proteins Bcl-2 and Bcl-xL, and lower expression levels of the pro-apoptosis protein Bax. Treatment of IgAN patient-derived TMCs with 10, 20, or 30 ng/mL TP for 24 h suppressed the viability and promoted the apoptosis of TMCs in a dose-dependent manner. Western blot analysis revealed a TP dose-dependent decrease in Bcl-2 and Bcl-xL expression levels, in parallel with increased Bax protein levels.. TMCs from IgAN patients may be in a state of inhibited apoptosis mediated by Bcl-2 family proteins, which may be reversed by TP treatment. Topics: Adolescent; Adult; Apoptosis; Cells, Cultured; Diterpenes; Drug Evaluation, Preclinical; Epoxy Compounds; Female; Glomerulonephritis, IGA; Humans; Immunosuppressive Agents; Leukocytes, Mononuclear; Male; Middle Aged; Palatine Tonsil; Phenanthrenes; Proto-Oncogene Proteins c-bcl-2; Young Adult | 2016 |
Anti-inflammatory effects of triptolide on IgA nephropathy in rats.
IgA nephropathy (IgAN) is the finding of immune deposits predominantly containing polymeric IgA in the glomerular mesangium on renal biopsy. Recently studies show that inflammation may involve in the progression of renal glomerulosclerosis and tubulointerstitial scarring in IgAN. This study was designed to evaluate the renoprotective effect of triptolide on IgAN rat model. IgAN was induced in Sprague-Dawley rats by oral and intravenous immunization with BSA for 12 weeks. Rats were treated with triptolide (200 μg/kg/d intragastrically) from 12 to 28 weeks. At Week 28, the rats was sacrificed, kidneys and blood samples were collected for further analysis. Our data shown that IgAN rat model showed marked deterioration of proteinuria together with higher levels of the urine protein:creatinine ratio compared to the normal control. Animals that underwent intermittent exposure to triptolide treatment exhibited significant improvements in the functional parameters without severe side effects. Rats developing IgAN had profound mesangial proliferation and mesangial expansion, intense and diffuse glomerular IgA deposition, while triptolide treatment significantly attenuated it. We also observed that treatment with triptolide significantly decreases serum levels of IL-1β and IL-18, and may exerted anti-inflammatory effects by down-regulating NLRP3 and TLR4 expression. Our study clearly demonstrated that triptolide prevents IgAN progression via an amelioration of inflammasome-mediated proinflammatory cytokine production, thus brought a light of hope for treatment of IgAN. Topics: Animals; Anti-Inflammatory Agents, Non-Steroidal; Carrier Proteins; Disease Models, Animal; Diterpenes; Epoxy Compounds; Gene Expression Regulation; Glomerulonephritis, IGA; Interleukin-18; Interleukin-1beta; Mice; NLR Family, Pyrin Domain-Containing 3 Protein; Phenanthrenes; Rats; Rats, Sprague-Dawley; Toll-Like Receptor 4 | 2015 |