在特化的胃肠道上皮机械感受器中,Piezo2 与 E-cadherin 相互作用。

IF 3.3 2区 医学 Q1 PHYSIOLOGY Journal of General Physiology Pub Date : 2024-12-02 Epub Date: 2024-11-04 DOI:10.1085/jgp.202213324
Arnaldo Mercado-Perez, Jeric P Hernandez, Yaroslav Fedyshyn, Anthony J Treichel, Vikram Joshi, Kimberlee Kossick, Kalpana R Betageri, Gianrico Farrugia, Brooke Druliner, Arthur Beyder
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引用次数: 0

摘要

Piezo2 是一种机械门控离子通道,最常见于专门的机械感受器,如胃肠道上皮的肠内分泌细胞(EECs)。肠内分泌细胞的一个亚群表达 Piezo2,其功能类似于皮肤的触觉传感器--梅克尔细胞。在我们称之为 "肠道触觉 "的过程中,传递到粘膜层的低强度机械刺激主要由机械敏感的EECs感知。Piezo2 将细胞力转化为离子电流,这一过程对双分子层张力和细胞骨架解聚敏感。E-cadherin是一种广泛表达的蛋白质,它在上皮细胞中介导细胞-细胞粘附,并与将其固定在肌动蛋白纤维上的支架蛋白相互作用。在永生化细胞模型中,E-adherin 与 Piezo2 相互作用。我们推测,Piezo2-E-cadherin 相互作用对 EEC 的机械敏感性很重要。为了验证这一假设,我们使用了超分辨率成像、共免疫沉淀以及小鼠原生组织和肠道器官组织的功能测试。在组织 EECs 和肠有机体中,我们观察到多个 Piezo2 细胞池,其中一个与细胞侧壁的肌动蛋白和 E-粘连蛋白重叠。此外,在原代结肠上皮细胞中,E-adherin与Piezo2共沉淀。我们发现,敲除 E-cadherin 会降低机械刺激原代 EEC 的机械敏感性钙反应。总之,我们的研究结果表明,Piezo2 定位于 EECs 的侧壁,并在那里与 E-cadherin 和肌动蛋白发生物理作用。这些结果表明,Piezo2-E-cadherin-肌动蛋白相互作用对肠道上皮细胞的机械敏感性非常重要,也可能对皮肤、肺和膀胱等上皮细胞机械感受器中共同表达 E-cadherin 和 Piezo2 的组织非常重要。
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Piezo2 interacts with E-cadherin in specialized gastrointestinal epithelial mechanoreceptors.

Piezo2 is a mechanically gated ion channel most commonly expressed by specialized mechanoreceptors, such as the enteroendocrine cells (EECs) of the gastrointestinal epithelium. A subpopulation of EECs expresses Piezo2 and functionally resembles the skin's touch sensors, called Merkel cells. Low-magnitude mechanical stimuli delivered to the mucosal layer are primarily sensed by mechanosensitive EECs in a process we term "gut touch." Piezo2 transduces cellular forces into ionic currents, a process that is sensitive to bilayer tension and cytoskeletal depolymerization. E-cadherin is a widely expressed protein that mediates cell-cell adhesion in epithelia and interacts with scaffold proteins that anchor it to actin fibers. E-cadherin was shown to interact with Piezo2 in immortalized cell models. We hypothesized that the Piezo2-E-cadherin interaction is important for EEC mechanosensitivity. To test this, we used super-resolution imaging, co-immunoprecipitation, and functional assays in primary tissues from mice and gut organoids. In tissue EECs and intestinal organoids, we observed multiple Piezo2 cellular pools, including one that overlaps with actin and E-cadherin at the cells' lateral walls. Further, E-cadherin co-immunoprecipitated with Piezo2 in the primary colonic epithelium. We found that E-cadherin knockdown decreases mechanosensitive calcium responses in mechanically stimulated primary EECs. In all, our results demonstrate that Piezo2 localizes to the lateral wall of EECs, where it physically interacts with E-cadherin and actin. They suggest that the Piezo2-E-cadherin-actin interaction is important for mechanosensitivity in the gut epithelium and possibly in tissues where E-cadherin and Piezo2 are co-expressed in epithelial mechanoreceptors, such as skin, lung, and bladder.

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来源期刊
CiteScore
6.00
自引率
10.50%
发文量
88
审稿时长
6-12 weeks
期刊介绍: General physiology is the study of biological mechanisms through analytical investigations, which decipher the molecular and cellular mechanisms underlying biological function at all levels of organization. The mission of Journal of General Physiology (JGP) is to publish mechanistic and quantitative molecular and cellular physiology of the highest quality, to provide a best-in-class author experience, and to nurture future generations of independent researchers. The major emphasis is on physiological problems at the cellular and molecular level.
期刊最新文献
Functional role of myosin-binding protein H in thick filaments of developing vertebrate fast-twitch skeletal muscle. Mechanism of acid-sensing ion channel modulation by Hi1a. Myosin-binding protein-H: Not just filler. Piezo2 interacts with E-cadherin in specialized gastrointestinal epithelial mechanoreceptors. Stable oxidative posttranslational modifications alter the gating properties of RyR1.
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