The calcineurin inhibitors cyclosporine A (CsA) and tacrolimus are widely used in the treatment of proteinuria diseases. As the direct target of these drugs, calcineurin has previously been demonstrated to play a role in proteinuria diseases. However, aside from its immune-related effects, the local status of calcineurin in renal inherent cells has not been fully explored in the settings of proteinuria disease and podocyte injury. In this study, calcineurin activity and protein expression in the well-known puromycin aminonucleoside (PAN)-induced podocyte injury model were examined. Interestingly, we found that calcineurin activity was abnormally increased in PAN-treated podocytes, whereas the expression of the full-length 60-kDa calcineurin protein was decreased. This result suggests that there may be another activated form of calcineurin that is independent of the full-length phosphatase. To investigate whether calpain is involved in regulating calcineurin, we exposed PAN-treated podocytes to both pharmacological inhibitors of calpain and specific siRNAs against calpain. Calpain blockade reduced the enhanced calcineurin activity and restored the down-regulated expression of 60-kDa calcineurin. In addition, purified calpain protein was incubated with podocyte extracts, and a 45-kDa fragment of calcineurin was identified; this finding was confirmed in PAN-induced podocyte injury and calpain inhibition experiments. We conclude that calcineurin activity is abnormally increased during PAN-induced podocyte injury, whereas the expression of the full-length 60-kDa calcineurin protein is down-regulated due to over-activated calpain that cleaves calcineurin to form a 45-kDa fragment.
The serum APRIL levels of seropositive RA patients are significantly higher than those of seronegative RA patients. APRIL may participate in the formation of seropositive RA.
MicroRNAs are a type of non-coding single-stranded RNA that can mediate target mRNA degradation or inhibit target mRNA translation, thereby regulating target gene expression and have an important role in physiological and pathological processes. At present, miRs have been confirmed
to be closely related to kidneys and kidney diseases, and have been involved in the occurrence, development and prognosis of renal fibrosis. Now we review the research progress of miRs in renal fibrosis in recent years, and provide references for the future diagnosis and treatment of renal
fibrosis. The incidence of diabetic nephropathy (DN) is increasing year by year, the pathogenesis is complicated, and renal fibrosis occurs during the progress of the disease, which is very difficult to treat. The protein encoded by the PTEN gene has lipid phosphatase and protein phosphatase
activity and is the PTEN/AKT and FAK pathway important negative regulators. It can play an anti-fibrotic effect by negatively regulating the PTEN/AKT pathway. Studies show that during the pathogenesis of DN, the expression of PTEN protein is reduced, and the PI3K/AKT pathway is activated to
exert multiple fibrotic effects, but affect PTEN. The regulatory factors of expression are still not clear; moreover, the specific mechanism of the decrease in PTEN protein expression in DN pathogenesis. Therefore, this study intends to Intervention of the expression level of miRs in renal
tissues, to study its regulation of PTEN and its effect on renal fibrosis, and at the same time, observe the effects on renal tubular epithelial cell phenotype and fibrotic lesions under high glucose conditions by up-regulating and down-regulating PTEN expression. Further elucidate the pathogenesis
of DN renal fibrosis, and explore new effective targets for the prevention and treatment of DN.
Our findings indicate that Chinese herbs increase endometrial thickness, improve the quality of fertility and embryo, and promote embryonic nidation, thus enhancing the success rate of in vitro fertilization/intracytoplasmic sperm injection-embryo transplantation cycle. Using Chinese herbs improves the outcomes and safety of assisted reproductive technologies.
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