酰化 Golga7b 通过稳定 DHHC5 于质膜来调节细胞黏附。

S-acylated Golga7b stabilises DHHC5 at the plasma membrane to regulate cell adhesion.

机构信息

Department of Biomedical Science & Centre for Membrane Interactions and Dynamics (CMIAD), Firth Court, Western Bank, University of Sheffield, Sheffield, UK.

Faculty of Science Mass Spectrometry Centre, University of Sheffield, Sheffield, UK.

出版信息

EMBO Rep. 2019 Oct 4;20(10):e47472. doi: 10.15252/embr.201847472. Epub 2019 Aug 12.

DOI:10.15252/embr.201847472

PMID:31402609

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6776912/

Abstract

S-acylation (palmitoylation) is the only fully reversible lipid modification of proteins; however, little is known about how protein S-acyltransferases (PATs) that mediate it are regulated. DHHC5 is a PAT that is mainly localised at the plasma membrane with roles in synaptic plasticity, massive endocytosis and cancer cell growth/invasion. Here, we demonstrate that DHHC5 binds to and palmitoylates a novel accessory protein Golga7b. Palmitoylation of Golga7b prevents clathrin-mediated endocytosis of DHHC5 and stabilises it at the plasma membrane. Proteomic analysis of the composition of DHHC5/Golga7b-associated protein complexes reveals a striking enrichment in adhesion proteins, particularly components of desmosomes. We show that desmoglein-2 and plakophilin-3 are substrates of DHHC5 and that DHHC5 and Golga7b are required for localisation of desmoglein-2 to the plasma membrane and for desmosomal patterning. Loss of DHHC5/Golga7b causes functional impairments in cell adhesion, suggesting these proteins have a wider role in cell adhesion beyond desmosome assembly. This work uncovers a novel mechanism of DHHC5 regulation by Golga7b and demonstrates a role for the DHHC5/Golga7b complex in the regulation of cell adhesion.

摘要

S-酰化（棕榈酰化）是蛋白质唯一完全可逆的脂质修饰；然而，关于介导它的蛋白质 S-酰基转移酶（PAT）如何被调节的信息知之甚少。DHHC5 是一种主要位于质膜上的 PAT，在突触可塑性、巨胞饮作用和癌细胞生长/侵袭中发挥作用。在这里，我们证明 DHHC5 与 Golga7b 这一新型辅助蛋白结合并对其进行棕榈酰化。Golga7b 的棕榈酰化可防止 DHHC5 的网格蛋白介导的内吞作用，并使其在质膜上稳定。DHHC5/Golga7b 相关蛋白复合物组成的蛋白质组学分析显示，粘附蛋白，特别是桥粒成分，显著富集。我们表明桥粒蛋白-2 和 plakophilin-3 是 DHHC5 的底物，DHHC5 和 Golga7b 对于桥粒蛋白-2 向质膜的定位和桥粒的形成至关重要。DHHC5/Golga7b 的缺失会导致细胞粘附功能障碍，这表明这些蛋白在桥粒组装之外，在细胞粘附中具有更广泛的作用。这项工作揭示了 Golga7b 对 DHHC5 调节的新机制，并证明了 DHHC5/Golga7b 复合物在调节细胞粘附中的作用。

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