Genggeng Qin scite author profile

TGF-b1, via Smad-dependent or Smad-independent signaling, has a central role in the pathogenesis of renal fibrosis. This pathway has been recognized as a potential target for antifibrotic therapy. Here, we identified GQ5, a small molecular phenolic compound isolated from the dried resin of Toxicodendron vernicifluum, as a potent and selective inhibitor of TGF-b1-induced Smad3 phosphorylation. In TGF-b1-stimulated renal tubular epithelial cells and interstitial fibroblast cells, GQ5 inhibited the interaction of Smad3 with TGF-b type I receptor (TbRI) by blocking binding of Smad3 to SARA, suppressed subsequent phosphorylation of Smad3, reduced nuclear translocation of Smad2, Smad3, and Smad4, and downregulated the transcription of major fibrotic genes such as a-smooth muscle actin (a-SMA), collagen I, and fibronectin. Notably, intraperitoneal administration of GQ5 in rats immediately after unilateral ureteral obstruction (UUO) selectively inhibited Smad3 phosphorylation in UUO kidneys, suppressed renal expression of a-SMA, collagen I, and fibronectin, and resulted in impressive renal protection after obstructive injury. Late administration of GQ5 also effectively attenuated fibrotic lesions in obstructive nephropathy. In conclusion, our results suggest that GQ5 hinders renal fibrosis in rats by selective inhibition of TGF-b1-induced Smad3 phosphorylation.

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Acacetin causes a frequency- and use-dependent blockade of hKv1.5 channels by binding to the S6 domain

Wang

Sun

et al. 2011

Journal of Molecular and Cellular Cardiology

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Genggeng Qin

Cascade of multi-scale convolutional neural networks for bone suppression of chest radiographs in gradient domain

Retraction: GQ5 Hinders Renal Fibrosis in Obstructive Nephropathy by Selectively Inhibiting TGF-β–Induced Smad3 Phosphorylation

Acacetin causes a frequency- and use-dependent blockade of hKv1.5 channels by binding to the S6 domain

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