盐皮质激素受体
对抗
医学
急性肾损伤
RAC1
药理学
血管平滑肌
肾
内科学
内分泌学
受体
生物
信号转导
生物化学
平滑肌
作者
Jonatan Barrera‐Chimal,Gwennan André‐Grégoire,Aurélie Nguyen Dinh Cat,Sébastian Lechner,Jérôme Cau,Sonia Prince,Peter Kolkhof,Gervaise Loirand,Vincent Sauzeau,Thierry Hauet,Frédéric Jaisser
标识
DOI:10.1681/asn.2016040477
摘要
AKI is a frequent complication in hospitalized patients. Unfortunately, there is no effective pharmacologic approach for treating or preventing AKI. In rodents, mineralocorticoid receptor (MR) antagonism prevents AKI induced by ischemia-reperfusion (IR). We investigated the specific role of vascular MR in mediating AKI induced by IR. We also assessed the protective effect of MR antagonism in IR-induced AKI in the Large White pig, a model of human AKI. In mice, MR deficiency in smooth muscle cells (SMCs) protected against kidney IR injury. MR blockade by the novel nonsteroidal MR antagonist, finerenone, or genetic deletion of MR in SMCs associated with weaker oxidative stress production. Moreover, ischemic kidneys had higher levels of Rac1-GTP, required for NADPH oxidase activation, than sham control kidneys, and genetic deletion of Rac1 in SMCs protected against AKI. Furthermore, genetic deletion of MR in SMCs blunted the production of Rac1-GTP after IR. Pharmacologic inhibition of MR also prevented AKI induced by IR in the Large White pig. Altogether, we show that MR antagonism, or deletion of the MR gene in SMCs, limited the renal injury induced by IR through effects on Rac1-mediated MR signaling. The benefits of MR antagonism in the pig provide a rational basis for future clinical trials assessing the benefits of this approach in patients with IR-mediated AKI.
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