连接蛋白间隙连接生物学研究进展

Faculty reviews Pub Date : 2022-05-27 DOI:10.12703/r/11-14
P. Lampe, D. Laird
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引用次数: 12

摘要

连接蛋白被组装成十二聚体细胞间通道,其集合被称为间隙连接,其允许离子和代谢物直接交换的经典功能已经明确确立。当最初组装成未对接的细胞表面连接蛋白半通道时,健康细胞也可以通过调节的小分子释放参与细胞信号传导。该领域的最新进展使人们对细胞间通道和半通道在生理学和病理学中的功能作用有了更广泛的认识。随着越来越多的21个成员的人类连接蛋白家族受到强烈质疑,越来越多的证据表明每个成员的生物学独特性,我们再也不能自信地提及参与相同细胞过程的所有连接蛋白。高分辨率冷冻电子显微镜的创新揭示了对半通道和通道功能重要结构域的重要见解。这些和其他研究已经奠定了知识基础,应该允许在细胞间或半通道活性增强是连接蛋白相关疾病根源的情况下设计抑制性智能药物。对连接蛋白相互作用组的评估,每种连接蛋白亚型差异很大,继续为显示短半衰期的连接蛋白的组装和功能提供调节见解。作为最深入的研究,Cx43在约50%的人类细胞类型中发现,并受到多种抑制和增强磷酸化事件的广泛调节,这些事件对组织功能和疾病(包括癌症)的结果具有直接影响。在这里,我们简要讨论了这些进展,并就该领域的发展方向提出了我们的想法。
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Recent advances in connexin gap junction biology
Connexins are assembled into dodecamer intercellular channels, a collection of which is termed a gap junction, and their canonical function allowing direct exchange of ions and metabolites has been unequivocally established. When initially assembled into undocked cell surface connexin hemichannels, healthy cells may also engage in cell signaling via a regulated small-molecule release. Recent advances in the field have led to an expanded view of the functional roles of intercellular channels and hemichannels in both physiology and pathology. As more of the 21-member human connexin family is intensely interrogated, mounting evidence points to the biological uniqueness of each member, and no longer can we confidently refer to all connexins engaging in the same cellular processes. Innovations in high-resolution cryo-electron microscopy have revealed important insights into the structure of functionally important domains of both hemichannels and channels. These and other studies have established a foundation of knowledge that should allow inhibitory smart drug design for situations where enhanced intercellular or hemichannel activity is at the root of a connexin-linked disease. Assessment of the connexin interactome, which varies widely for each connexin subtype, continues to provide regulatory insights into the assembly and function of connexins that exhibit a short half-life. As the most intensely studied, Cx43 is found in about 50% of all human cell types and is extensively regulated by multiple inhibitory and enhancing phosphorylation events that have direct implications on tissue function and outcomes of disease, including cancer. Here, we briefly discuss these advances and give our thoughts on where the field is headed.
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