损伤后内皮素-1依赖性肾血管调节抑制减轻横纹肌溶解引起的急性肾损伤。

IF 5.1 Q2 CELL BIOLOGY
Jeremiah M Afolabi, Praghalathan Kanthakumar, Jada D Williams, Ravi Kumar, Hitesh Soni, Adebowale Adebiyi
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引用次数: 2

摘要

在横纹肌溶解患者中,肌红蛋白大量释放到血液循环中是肾损伤的主要原因。肌红蛋白引起直接肾损伤和严重的肾血管收缩。肾血管阻力(RVR)增加导致肾血流量(RBF)和肾小球滤过率(GFR)降低、肾小管损伤和急性肾损伤(AKI)。横纹肌溶解诱发AKI的机制尚不完全清楚,但可能涉及肾脏局部血管活性介质的产生。研究表明,肌红蛋白刺激肾小球系膜细胞内皮素-1 (ET-1)的产生。甘油诱导横纹肌溶解大鼠的循环ET-1也增加。然而,在横纹肌溶解引起的AKI中,ET-1产生的上游机制和ET-1作用的下游效应尚不清楚。血管活性ET-1是由ET转化酶1 (ECE-1)诱导的无活性大ET蛋白水解过程产生的生物活性肽。et -1诱导血管调节的下游离子通道效应物包括瞬时受体电位阳离子通道,亚家族C成员3 (TRPC3)。本研究表明,甘油诱导的Wistar大鼠横纹肌溶解促进了ece -1依赖性ET-1的产生,RVR增加,GFR降低和AKI。损伤后药物抑制ECE-1、ET受体和TRPC3通道可减轻横纹肌溶解引起的大鼠RVR和AKI升高。CRISPR/ cas9介导的TRPC3通道敲除可减弱et -1诱导的肾血管反应性和横纹肌溶解诱导的AKI。这些发现表明,ece -1驱动的ET-1产生和trpc3依赖性肾血管收缩的下游激活有助于横横肌溶解诱导的AKI。因此,损伤后抑制et -1介导的肾血管调节可能为横纹肌溶解引起的AKI提供治疗靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Post-injury Inhibition of Endothelin-1 Dependent Renal Vasoregulation Mitigates Rhabdomyolysis-Induced Acute Kidney Injury.

Post-injury Inhibition of Endothelin-1 Dependent Renal Vasoregulation Mitigates Rhabdomyolysis-Induced Acute Kidney Injury.

Post-injury Inhibition of Endothelin-1 Dependent Renal Vasoregulation Mitigates Rhabdomyolysis-Induced Acute Kidney Injury.

Post-injury Inhibition of Endothelin-1 Dependent Renal Vasoregulation Mitigates Rhabdomyolysis-Induced Acute Kidney Injury.

In patients with rhabdomyolysis, the overwhelming release of myoglobin into the circulation is the primary cause of kidney injury. Myoglobin causes direct kidney injury as well as severe renal vasoconstriction. An increase in renal vascular resistance (RVR) results in renal blood flow (RBF) and glomerular filtration rate (GFR) reduction, tubular injury, and acute kidney injury (AKI). The mechanisms that underlie rhabdomyolysis-induced AKI are not fully understood but may involve the local production of vasoactive mediators in the kidney. Studies have shown that myoglobin stimulates endothelin-1 (ET-1) production in glomerular mesangial cells. Circulating ET-1 is also increased in rats subjected to glycerol-induced rhabdomyolysis. However, the upstream mechanisms of ET-1 production and downstream effectors of ET-1 actions in rhabdomyolysis-induced AKI remain unclear. Vasoactive ET-1 is generated by ET converting enzyme 1 (ECE-1)-induced proteolytic processing of inactive big ET to biologically active peptides. The downstream ion channel effectors of ET-1-induced vasoregulation include the transient receptor potential cation channel, subfamily C member 3 (TRPC3). This study demonstrates that glycerol-induced rhabdomyolysis in Wistar rats promotes ECE-1-dependent ET-1 production, RVR increase, GFR decrease, and AKI. Rhabdomyolysis-induced increases in RVR and AKI in the rats were attenuated by post-injury pharmacological inhibition of ECE-1, ET receptors, and TRPC3 channels. CRISPR/Cas9-mediated knockout of TRPC3 channels attenuated ET-1-induced renal vascular reactivity and rhabdomyolysis-induced AKI. These findings suggest that ECE-1-driven ET-1 production and downstream activation of TRPC3-dependent renal vasoconstriction contribute to rhabdomyolysis-induced AKI. Hence, post-injury inhibition of ET-1-mediated renal vasoregulation may provide therapeutic targets for rhabdomyolysis-induced AKI.

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CiteScore
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