Crucial role for sensory nerves and Na/H exchanger inhibition in dapagliflozin- and empagliflozin-induced arterial relaxation.

IF 10.2 1区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS
Elizabeth A Forrester, Miguel Benítez-Angeles, Kaitlyn E Redford, Tamara Rosenbaum, Geoffrey W Abbott, Vincenzo Barrese, Kim Dora, Anthony P Albert, Johs Dannesboe, Isabelle Salles-Crawley, Thomas A Jepps, Iain A Greenwood
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引用次数: 0

Abstract

Aims: Sodium/glucose transporter 2 (SGLT2 or SLC5A2) inhibitors lower blood glucose and are also approved treatments for heart failure independent of raised glucose. Various studies have showed that SGLT2 inhibitors relax arteries, but the underlying mechanisms are poorly understood and responses variable across arterial beds. We speculated that SGLT2 inhibitor-mediated arterial relaxation is dependent upon calcitonin gene-related peptide (CGRP) released from sensory nerves independent of glucose transport.

Methods and results: The functional effects of SGLT1 and 2 inhibitors (mizagliflozin, dapagliflozin, and empagliflozin) and the sodium/hydrogen exchanger 1 (NHE1) blocker cariporide were determined on pre-contracted resistance arteries (mesenteric and cardiac septal arteries) as well as main renal conduit arteries from male Wistar rats using wire myography. SGLT2, CGRP, TRPV1, and NHE1 expression was determined by western blot and immunohistochemistry. Kv7.4/5/KCNE4 and TRPV1 currents were measured in the presence and absence of dapagliflozin and empagliflozin. All SGLT inhibitors (1-100 µM) and cariporide (30 µM) relaxed mesenteric arteries but had negligible effect on renal or septal arteries. Immunohistochemistry with TRPV1 and CGRP antibodies revealed a dense innervation of sensory nerves in mesenteric arteries that were absent in renal and septal arteries. Consistent with a greater sensory nerve component, the TRPV1 agonist capsaicin relaxed mesenteric arteries more effectively than renal or septal arteries. In mesenteric arteries, relaxations to dapagliflozin, empagliflozin, and cariporide were attenuated by the CGRP receptor antagonist BIBN-4096, depletion of sensory nerves with capsaicin, and blockade of TRPV1 or Kv7 channels. Neither dapagliflozin nor empagliflozin activated heterologously expressed TRPV1 channels or Kv7 channels directly. Sensory nerves also expressed NHE1 but not SGLT2 and cariporide pre-application as well as knockdown of NHE1 by translation stop morpholinos prevented the relaxant response to SGLT2 inhibitors.

Conclusion: SGLT2 inhibitors relax mesenteric arteries by promoting the release of CGRP from sensory nerves in a NHE1-dependent manner.

感觉神经和 Na/H 交换抑制在达帕利嗪和恩格列净诱导的动脉松弛中起关键作用。
目的:钠/葡萄糖转运体 2(SGLT2 或 SLC5A2)抑制剂可降低血糖,也是已获批准的治疗心力衰竭的药物,与血糖升高无关。多项研究表明,SGLT2 抑制剂可使动脉松弛,但其潜在机制尚不清楚,不同动脉床的反应也不尽相同。我们推测 SGLT2 抑制剂介导的动脉松弛取决于来自感觉神经的降钙素基因相关肽(CGRP),而与葡萄糖转运无关:使用线-肌电图测定了 SGLT1 和 2 抑制剂(mizagliflozin、dapagliflozin、empagliflozin)以及钠/氢交换器 1(NHE1)阻断剂卡利波利(cariporide)对雄性 Wistar 大鼠预收缩阻力动脉(肠系膜动脉和心脏隔膜动脉)以及主要肾导管动脉的功能影响。SGLT2、CGRP、TRPV1 和 NHE1 的表达是通过 Western 印迹和免疫组化法测定的。所有 SGLT 抑制剂(1µM-100µM)和卡利波利(30µM)都能舒张肠系膜动脉,但对肾动脉或隔膜动脉的影响微乎其微。用 TRPV1 和 CGRP 抗体进行免疫组化显示,肠系膜动脉有密集的感觉神经支配,而肾动脉和隔膜动脉则没有。与更多的感觉神经成分相一致的是,TRPV1 激动剂辣椒素比肾动脉或隔膜动脉更有效地松弛肠系膜动脉。在肠系膜动脉中,CGRP 受体拮抗剂 BIBN-4096、辣椒素耗竭感觉神经以及阻断 TRPV1 或 Kv7 通道都会减弱达帕格列净、empagliflozin 和卡泊雷对肠系膜动脉的松弛作用。dapagliflozin和empagliflozin都不能直接激活异源表达的TRPV1通道或Kv7通道。感觉神经也表达 NHE1,但不表达 SGLT2,预应用卡利波利和通过翻译终止吗啡原体敲除 NHE1 可阻止对 SGLT2 抑制剂的松弛反应:结论:SGLT2 抑制剂以 NHE1 依赖性方式促进感觉神经释放 CGRP,从而松弛肠系膜动脉。
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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来源期刊
Cardiovascular Research
Cardiovascular Research 医学-心血管系统
CiteScore
21.50
自引率
3.70%
发文量
547
审稿时长
1 months
期刊介绍: Cardiovascular Research Journal Overview: International journal of the European Society of Cardiology Focuses on basic and translational research in cardiology and cardiovascular biology Aims to enhance insight into cardiovascular disease mechanisms and innovation prospects Submission Criteria: Welcomes papers covering molecular, sub-cellular, cellular, organ, and organism levels Accepts clinical proof-of-concept and translational studies Manuscripts expected to provide significant contribution to cardiovascular biology and diseases
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