TRPC5 controls the adrenaline-mediated counter regulation of hypoglycemia.

The EMBO Journal Pub Date : 2024-10-07 DOI:10.1038/s44318-024-00231-0

Jenny Bröker-Lai,José Rego Terol,Christin Richter,Ilka Mathar,Angela Wirth,Stefan Kopf,Ana Moreno-Pérez,Michael Büttner,Linette Liqi Tan,Mazen Makke,Gernot Poschet,Julia Hermann,Volodymyr Tsvilovskyy,Uwe Haberkorn,Philipp Wartenberg,Sebastian Susperreguy,Michael Berlin,Roger Ottenheijm,Koenraad Philippaert,Moya Wu,Tobias Wiedemann,Stephan Herzig,Anouar Belkacemi,Rebecca T Levinson,Nitin Agarwal,Juan E Camacho Londoño,Bert Klebl,Klaus Dinkel,Frank Zufall,Peter Nussbaumer,Ulrich Boehm,Rüdiger Hell,Peter Nawroth,Lutz Birnbaumer,Trese Leinders-Zufall,Rohini Kuner,Markus Zorn,Dieter Bruns,Yvonne Schwarz,Marc Freichel

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Abstract

Hypoglycemia triggers autonomic and endocrine counter-regulatory responses to restore glucose homeostasis, a response that is impaired in patients with diabetes and its long-term complication hypoglycemia-associated autonomic failure (HAAF). We show that insulin-evoked hypoglycemia is severely aggravated in mice lacking the cation channel proteins TRPC1, TRPC4, TRPC5, and TRPC6, which cannot be explained by alterations in glucagon or glucocorticoid action. By using various TRPC compound knockout mouse lines, we pinpointed the failure in sympathetic counter-regulation to the lack of the TRPC5 channel subtype in adrenal chromaffin cells, which prevents proper adrenaline rise in blood plasma. Using electrophysiological analyses, we delineate a previously unknown signaling pathway in which stimulation of PAC1 or muscarinic receptors activates TRPC5 channels in a phospholipase-C-dependent manner to induce sustained adrenaline secretion as a crucial step in the sympathetic counter response to insulin-induced hypoglycemia. By comparing metabolites in the plasma, we identified reduced taurine levels after hypoglycemia induction as a commonality in TRPC5-deficient mice and HAAF patients.

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TRPC5 控制肾上腺素介导的低血糖反调节。

低血糖会触发自主神经和内分泌的反调节反应，以恢复葡萄糖稳态，而糖尿病患者及其长期并发症低血糖相关自主神经功能衰竭（HAAF）会损害这种反应。我们的研究表明，在缺乏阳离子通道蛋白 TRPC1、TRPC4、TRPC5 和 TRPC6 的小鼠中，胰岛素诱发的低血糖症会严重恶化，这无法用胰高血糖素或糖皮质激素作用的改变来解释。通过使用各种 TRPC 复合基因敲除小鼠品系，我们将交感神经反调节失效的原因归结为肾上腺绒毛细胞中缺乏 TRPC5 通道亚型，从而阻碍了肾上腺素在血浆中的正常升高。通过电生理学分析，我们勾画出了一条之前未知的信号通路，在这条通路中，PAC1 或毒蕈碱受体的刺激以磷脂酶-C 依赖性方式激活 TRPC5 通道，从而诱导肾上腺素持续分泌，这是交感神经对胰岛素诱导的低血糖症做出反作用反应的关键步骤。通过比较血浆中的代谢物，我们发现低血糖诱导后牛磺酸水平的降低是 TRPC5 缺陷小鼠和 HAAF 患者的共同点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The EMBO Journal

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