Xiao-Pei Xue , Yu Sheng , Qi-Qi Ren , Shi-Meng Xu , Min Li , Zhao-Xiu Liu , Cui-Hua Lu
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引用次数: 0
摘要
肝纤维化的特点是对各种致病因素的过度修复反应,活化的肝星状细胞(aHSCs)会导致细胞外基质(ECM)的积累。衰老是一种稳定的生长停滞,aHSCs 的衰老与 ECM 降解和肝纤维化消退有关,因此衰老是一种很有前景的治疗肝纤维化的方法。V 型质子 ATP 酶 G 3 亚基(ATP6V1G3)在肝纤维化过程中影响活化造血干细胞衰老的作用和具体机制仍不清楚。我们的初步研究结果表明,ATP6V1G3 在人类纤维化肝脏和小鼠肝纤维化模型中都存在上调。此外,抑制 ATP6V1G3 可诱导体外造血干细胞衰老。此外,抑制 Notch1 能逆转抑制 ATP6V1G3 引起的造血干细胞衰老。因此,靶向ATP6V1G3似乎是通过Notch1途径驱动造血干细胞衰老的一种潜在的肝纤维化治疗策略。
Inhibition of ATP1V6G3 prompts hepatic stellate cell senescence with reducing ECM by activating Notch1 pathway to alleviate hepatic fibrosis
Liver fibrosis is characterized by an excessive reparative response to various etiological factors, with the activated hepatic stellate cells (aHSCs) leading to extracellular matrix (ECM) accumulation. Senescence is a stable growth arrest, and the senescence of aHSCs is associated with the degradation of ECM and the regression of hepatic fibrosis, making it a promising approach for managing hepatic fibrosis. The role and specific mechanisms by which V-Type Proton ATPase Subunit G 3 (ATP6V1G3) influences senescence in activated HSCs during liver fibrosis remain unclear. Our preliminary results reveal upregulation of ATP6V1G3 in both human fibrotic livers and murine liver fibrosis models. Additionally, ATP6V1G3 inhibition induced senescence in aHSCs in vitro. Moreover, suppressing Notch1 reversed the senescence caused by ATP6V1G3 inhibition in HSCs. Thus, targeting ATP6V1G3, which appears to drive HSCs senescence through the Notch1 pathway, emerges as a potential therapeutic strategy for hepatic fibrosis.
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