PTP-MEG2 通过两个不同的结构基础和底物来调节量子大小和融合孔的开启。

PTP-MEG2 regulates quantal size and fusion pore opening through two distinct structural bases and substrates.

机构信息

Key Laboratory Experimental Teratology of the Ministry of Education and Department of Biochemistry and Molecular Biology, Shandong University School of Medicine, Jinan, China.

Department of General Surgery, Qilu Hospital of Shandong University, Jinan, China.

出版信息

EMBO Rep. 2021 May 5;22(5):e52141. doi: 10.15252/embr.202052141. Epub 2021 Mar 25.

DOI:10.15252/embr.202052141

PMID:33764618

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8097337/

Abstract

Tyrosine phosphorylation of secretion machinery proteins is a crucial regulatory mechanism for exocytosis. However, the participation of protein tyrosine phosphatases (PTPs) in different exocytosis stages has not been defined. Here we demonstrate that PTP-MEG2 controls multiple steps of catecholamine secretion. Biochemical and crystallographic analyses reveal key residues that govern the interaction between PTP-MEG2 and its substrate, a peptide containing the phosphorylated NSF-pY site, specify PTP-MEG2 substrate selectivity, and modulate the fusion of catecholamine-containing vesicles. Unexpectedly, delineation of PTP-MEG2 mutants along with the NSF binding interface reveals that PTP-MEG2 controls the fusion pore opening through NSF independent mechanisms. Utilizing bioinformatics search and biochemical and electrochemical screening approaches, we uncover that PTP-MEG2 regulates the opening and extension of the fusion pore by dephosphorylating the DYNAMIN2-pY and MUNC18-1-pY sites. Further structural and biochemical analyses confirmed the interaction of PTP-MEG2 with MUNC18-1-pY or DYNAMIN2-pY through a distinct structural basis compared with that of the NSF-pY site. Our studies thus provide mechanistic insights in complex exocytosis processes.

摘要

蛋白质酪氨酸磷酸化是胞吐作用的一个关键调控机制。然而，蛋白酪氨酸磷酸酶（PTPs）在不同胞吐作用阶段的参与尚未确定。在这里，我们证明 PTP-MEG2 控制儿茶酚胺分泌的多个步骤。生化和晶体学分析揭示了控制 PTP-MEG2 与其底物之间相互作用的关键残基，该底物包含磷酸化的 NSF-pY 位点，指定了 PTP-MEG2 底物的选择性，并调节含儿茶酚胺的囊泡融合。出乎意料的是，沿着 NSF 结合界面描绘 PTP-MEG2 突变体表明，PTP-MEG2 通过独立于 NSF 的机制控制融合孔的开启。利用生物信息学搜索和生化及电化学筛选方法，我们发现 PTP-MEG2 通过去磷酸化 DYNAMIN2-pY 和 MUNC18-1-pY 位点来调节融合孔的开启和延伸。进一步的结构和生化分析证实了 PTP-MEG2 与 MUNC18-1-pY 或 DYNAMIN2-pY 的相互作用通过与 NSF-pY 位点不同的结构基础来实现。因此，我们的研究为复杂的胞吐作用过程提供了机制上的见解。

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