微绒毛尖端的跨膜通道样蛋白4和5是潜在的离子通道和脂质翻转酶。

Transmembrane channel-like 4 and 5 proteins at microvillar tips are potential ion channels and lipid scramblases.

作者信息

Ebrahim Seham, Ballesteros Angela, Zheng W Sharon, Mukherjee Shounak, Hu Gaizun, Weng Wei-Hsiang, Montgomery Jonathan S, Agyemang Yaw, Cui Runjia, Sun Willy, Krystofiak Evan, Foster Mark P, Sotomayor Marcos, Kachar Bechara

机构信息

Center for Membrane and Cell Physiology, Department of Molecular Physiology and Biological Physics, University of Virginia, Charlottesville, VA 22903, USA.

Laboratory of Cell Structure and Dynamics, National Institute on Deafness and Other Communication Disorders, National Institutes of Health, Bethesda, MD 20892, USA.

出版信息

bioRxiv. 2024 Aug 23:2024.08.22.609173. doi: 10.1101/2024.08.22.609173.

DOI:10.1101/2024.08.22.609173

PMID:39229161

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11370596/

Abstract

Microvilli-membrane bound actin protrusions on the surface of epithelial cells-are sites of critical processes including absorption, secretion, and adhesion. Increasing evidence suggests microvilli are mechanosensitive, but underlying molecules and mechanisms remain unknown. Here, we localize transmembrane channel-like proteins 4 and 5 (TMC4 and 5) and calcium and integrin binding protein 3 (CIB3) to microvillar tips in intestinal epithelial cells, near glycocalyx insertion sites. We find that TMC5 colocalizes with CIB3 in cultured cells and that a TMC5 fragment forms a complex with CIB3 . Homology and AlphaFold2 models reveal a putative ion permeation pathway in TMC4 and 5, and molecular dynamics simulations predict both proteins can conduct ions and perform lipid scrambling. These findings raise the possibility that TMC4 and 5 interact with CIB3 at microvillar tips to form a mechanosensitive complex, akin to TMC1 and 2, and CIB2 and 3, within the mechanotransduction channel complex at the tips of inner ear stereocilia.

摘要

微绒毛是上皮细胞表面与膜结合的肌动蛋白突起，是吸收、分泌和黏附等关键过程发生的部位。越来越多的证据表明微绒毛具有机械敏感性，但其潜在的分子和机制仍不清楚。在这里，我们将跨膜通道样蛋白4和5（TMC4和5）以及钙整合素结合蛋白3（CIB3）定位到肠上皮细胞微绒毛的尖端，靠近糖萼插入位点。我们发现在培养细胞中TMC5与CIB3共定位，并且一个TMC5片段与CIB3形成复合物。同源性和AlphaFold2模型揭示了TMC4和5中一个假定的离子渗透途径，分子动力学模拟预测这两种蛋白质都可以传导离子并进行脂质翻转。这些发现增加了一种可能性，即TMC4和5在微绒毛尖端与CIB3相互作用，形成一种机械敏感复合物，类似于内耳静纤毛尖端机械转导通道复合物中的TMC1和2以及CIB2和3。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d9cc/11370596/9ecf304bb816/nihpp-2024.08.22.609173v1-f0001.jpg

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微绒毛尖端的跨膜通道样蛋白4和5是潜在的离子通道和脂质翻转酶。

Transmembrane channel-like 4 and 5 proteins at microvillar tips are potential ion channels and lipid scramblases.

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