TRPV4 couples with NCX1 to mediate glucose-dependent glucagon-like peptide-1 release and improve glucose homeostasis

IF 4.7 2区医学 Q1 NEUROSCIENCES

Journal of Physiology-London Pub Date : 2024-11-21 DOI:10.1113/JP287092

Xiongying Chen, Fenglan Chu, Sijin Sunchen, Junhui Li, Mengting Zhang, Feng Xu, Hui Dong

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Abstract

Although glucose, as a secretagogue of intestinal hormone, can stimulate glucagon-like peptide 1 (GLP-1) release, it has not been fully elucidated how glucose triggers GLP-1 release from enteroendocrine cells (EECs). Here, we investigated the regulatory mechanisms of glucose-induced Ca²⁺-dependent GLP-1 release from EECs. STC-1 cells that possess many features of native intestinal EECs were used. The expression of TRPV4 channels and Na⁺/Ca²⁺ exchanger 1 (NCX1) in STC-1 was analysed by immunocytochemistry. Calcium and sodium imaging, and patch clamp were applied, and GLP-1 was detected using quantitative PCR, western blot and enzyme-linked immunosorbent assays. Glucose markedly induced Na⁺ and Ca²⁺ signalling in STC-1 cells. The glucose-induced Ca²⁺ signalling was significantly attenuated by selective blockers of the voltage-gated Ca²⁺ channels (VGCC), ryanodine receptors and InsP₃ receptors. Most importantly, glucose-induced Ca²⁺ signalling was significantly attenuated by the selective blockers of TRPV4 and NCX1. Moreover, the physical and functional couplings of TRPV4 and NCX1 were demonstrated in STC-1 cells, and they promoted glucose-mediated Ca²⁺ signalling to upregulate expression and release of GLP-1 via Ca²⁺-sensitive PKCα. Finally, the selective TRPV4 activator improved glucose tolerance in an oral glucose tolerance test in mice, but the selective blockers of TRPV4 and NCX1 attenuated glucose-induced intestinal GLP-1 release. We demonstrate a coupling of TRPV4 and NCX1 in EECs to regulate glucose-stimulated intestinal GLP-1 release via a novel TRPV4/NCX1/Ca²⁺/PKCα axis. Targeting this axis may provide new therapeutic potentials for glycometabolic diseases.

Key points

Glucagon-like peptide 1 (GLP-1) secreted primarily from intestinal L cells in response to meals plays a critical role in maintaining glucose homeostasis.
Physical and functional couplings of TRPV4 and NCX1 are pivotal in glucose-stimulated GLP-1 release via a novel TRPV4/NCX1/Ca²⁺/PKCα axis.
Since this axis is involved in glucose homeostasis, our findings may provide new potential drug targets for prevention/treatment of glycometabolic diseases.

Abstract Image

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TRPV4 与 NCX1 相互配合，介导葡萄糖依赖性胰高血糖素样肽-1 的释放，改善葡萄糖稳态。

虽然葡萄糖作为一种肠道激素分泌物，可以刺激胰高血糖素样肽1（GLP-1）的释放，但葡萄糖如何触发肠内分泌细胞（EECs）释放GLP-1尚未完全阐明。在这里，我们研究了葡萄糖诱导肠内分泌细胞释放 Ca2+ 依赖性 GLP-1 的调控机制。我们使用了具有许多原生肠道 EECs 特征的 STC-1 细胞。免疫细胞化学分析了 TRPV4 通道和 Na+/Ca2+ 交换子 1（NCX1）在 STC-1 中的表达。应用钙、钠成像和膜片钳，并通过定量 PCR、Western 印迹和酶联免疫吸附试验检测 GLP-1。葡萄糖明显诱导了STC-1细胞的Na+和Ca2+信号传导。电压门控 Ca2+ 通道（VGCC）、雷诺丁受体和 InsP3 受体的选择性阻断剂可明显减弱葡萄糖诱导的 Ca2+ 信号。最重要的是，葡萄糖诱导的 Ca2+ 信号在 TRPV4 和 NCX1 选择性阻断剂的作用下明显减弱。此外，在 STC-1 细胞中，TRPV4 和 NCX1 的物理和功能耦合也得到了证实，它们通过对 Ca2+ 敏感的 PKCα 促进葡萄糖介导的 Ca2+ 信号，从而上调 GLP-1 的表达和释放。最后，在小鼠口服葡萄糖耐量试验中，选择性 TRPV4 激活剂改善了葡萄糖耐量，但 TRPV4 和 NCX1 的选择性阻断剂却减弱了葡萄糖诱导的肠道 GLP-1 释放。我们证明了脑血管中的 TRPV4 和 NCX1 通过一个新的 TRPV4/NCX1/Ca2+/PKCα 轴耦合调节葡萄糖刺激的肠道 GLP-1 释放。针对这一轴心可能为糖代谢疾病提供新的治疗潜力。要点：胰高血糖素样肽 1（GLP-1）主要由肠 L 细胞在进餐时分泌，在维持葡萄糖稳态方面起着关键作用。TRPV4 和 NCX1 的物理和功能耦合在葡萄糖刺激的 GLP-1 释放过程中起着关键作用，这是通过新型 TRPV4/NCX1/Ca2+/PKCα 轴实现的。由于该轴参与葡萄糖稳态，我们的发现可能为预防/治疗糖代谢疾病提供新的潜在药物靶点。

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来源期刊

Journal of Physiology-London 医学-神经科学

CiteScore

9.70

自引率

7.30%

发文量

817

审稿时长

2 months

期刊介绍： The Journal of Physiology publishes full-length original Research Papers and Techniques for Physiology, which are short papers aimed at disseminating new techniques for physiological research. Articles solicited by the Editorial Board include Perspectives, Symposium Reports and Topical Reviews, which highlight areas of special physiological interest. CrossTalk articles are short editorial-style invited articles framing a debate between experts in the field on controversial topics. Letters to the Editor and Journal Club articles are also published. All categories of papers are subjected to peer reivew. The Journal of Physiology welcomes submitted research papers in all areas of physiology. Authors should present original work that illustrates new physiological principles or mechanisms. Papers on work at the molecular level, at the level of the cell membrane, single cells, tissues or organs and on systems physiology are all acceptable. Theoretical papers and papers that use computational models to further our understanding of physiological processes will be considered if based on experimentally derived data and if the hypothesis advanced is directly amenable to experimental testing. While emphasis is on human and mammalian physiology, work on lower vertebrate or invertebrate preparations may be suitable if it furthers the understanding of the functioning of other organisms including mammals.

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