荚膜细胞中 RAS 介导的一氧化氮信号转导。

Marharyta Semenikhina, Ruslan Bohovyk, Mykhailo Fedoriuk, Mariia Stefanenko, Christine A Klemens, Jim C Oates, Alexander Staruschenko, Oleg Palygin
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引用次数: 0

摘要

一氧化氮(NO)在调节肾功能和血压方面的作用已得到广泛认可。然而,NO 影响肾上皮细胞的确切机制仍未得到充分研究。我们之前的研究表明,肾小球荚膜细胞中的 NO 信号传导可由血管紧张素 II(Ang II)启动,但不能由 ATP 启动。本研究旨在阐明肾素-血管紧张素系统(RAS)与荚膜细胞中 NO 生成之间的重要相互作用。为了进行研究,我们利用了培养的人类荚膜细胞和新鲜分离的大鼠肾小球。我们使用了多种 RAS 肽和共聚焦显微镜来检测 NO 的产生和 NO/Ca2+ 的串扰。利用荧光标记 F-肌动蛋白和扫描探针显微镜观察了 RAS-NO 细胞内信号介导的荚膜细胞细胞骨架的动态变化。实验证明,血管紧张素 II 和血管紧张素 III 通过激活血管紧张素 II 2 型受体(AT2R)产生大量 NO。我们没有在荚膜细胞中检测到功能性 MAS 受体的存在,而对 Ang 1-7 的中度 NO 反应也是通过 AT2R 介导的。此外,NO 的产生影响了细胞内 Ca2+ 信号的传递,并与荚膜细胞体积和生长的增加相关。扫描探针实验显示,AT2R 激活和相应的 NO 生成是荚膜细胞片层突起的原因。总之,我们的数据表明,AT2R 激活会增强荚膜细胞中的 NO 生成,进而介导 Ca2+ 信号转导和荚膜细胞体积动态变化。这些机制可能在 RAS 和荚膜细胞之间的生理和病理相互作用中发挥重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Renin-angiotensin system-mediated nitric oxide signaling in podocytes.

Nitric oxide (NO) is widely recognized for its role in regulating renal function and blood pressure. However, the precise mechanisms by which NO affects renal epithelial cells remain understudied. Our previous research has shown that NO signaling in glomerular podocytes can be initiated by Angiotensin II (ANG II) but not by ATP. This study aims to elucidate the crucial interplay between the renin-angiotensin system (RAS) and NO production in podocytes. To conduct our research, we used cultured human podocytes and freshly isolated rat glomeruli. A variety of RAS peptides were used, alongside confocal microscopy, to detect NO production and NO/Ca2+ cross talk. Dynamic changes in the podocyte cytoskeleton, mediated by RAS-NO intracellular signaling, were observed using fluorescent labeling for F-actin and scanning probe microscopy. The experiments demonstrated that ANG II and ANG III generated high levels of NO by activating the angiotensin II type 2 receptor (AT2R). We did not detect functional MAS receptor presence in podocytes, and the moderate NO response to ANG 1-7 was also mediated through AT2R. Furthermore, NO production impacted intracellular Ca2+ signaling and correlated with an increase in podocyte volume and growth. Scanning probe experiments revealed that AT2R activation and the corresponding NO generation are responsible for the protrusion of podocyte lamellipodia. Taken together, our data indicate that AT2R activation enhances NO production in podocytes and subsequently mediates changes in Ca2+ signaling and podocyte volume dynamics. These mechanisms may play a significant role in both physiological and pathophysiological interactions between the RAS and podocytes.NEW & NOTEWORTHY The renin-angiotensin system plays a crucial role in the production of intracellular nitric oxide within podocytes. This mechanism operates through the activation of the angiotensin II type 2 receptor, leading to dynamic modifications in intracellular calcium levels and the actin filament network. This intricate process is vital for linking the activity of angiotensin receptors to podocyte function.

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