Conclusions
These findings demonstrate that the activation of Sigmar1 by SA4503 protects against ADR-induced podocyte injury and glomerular damage, likely by stabilizing Sigmar1-nephrin interactions. Therefore, Sigmar1 represents a promising therapeutic target for glomerular diseases such as nephrotic syndrome.
Methods
Using in vitro and in vivo models, we evaluated the effects of SA4503 on ADR-induced podocyte injury, including podocyte survival, albumin permeability, urinary albumin levels, and Sigmar1-nephrin interactions. NE-100, a Sigmar1 antagonist, was co-administered to validate the specificity of the effects of SA4503.
Results
Sigmar1 was highly expressed in podocytes and mouse kidney tissues. SA4503 significantly reduced ADR-induced podocyte injury and urinary albumin leakage in mice. Mechanistically, SA4503 preserved Sigmar1-nephrin interactions, which were disrupted in ADR-treated kidneys. This protective effect was abolished by NE-100 co-treatment, confirming the Sigmar1-dependency of SA4503's action. Conclusions: These findings demonstrate that the activation of Sigmar1 by SA4503 protects against ADR-induced podocyte injury and glomerular damage, likely by stabilizing Sigmar1-nephrin interactions. Therefore, Sigmar1 represents a promising therapeutic target for glomerular diseases such as nephrotic syndrome.