Coordinated inositide lipid-phosphatase activities of synaptojanin modulates actin cytoskeleton organization

Q1 Biochemistry, Genetics and Molecular Biology
Tong Zhang , Andrew T. Hale , Shuling Guo , John D. York
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Abstract

Synaptojanin proteins are evolutionarily conserved regulators of vesicle transport and membrane homeostasis. Disruption of synaptojanin function has been implicated in a wide range of neurological disorders. Synaptojanins act as dual-functional lipid phosphatases capable of hydrolyzing a variety of phosphoinositides (PIPs) through autonomous SAC1-like PIP 4-phosphatase and PIP2 5-phosphatase domains. The rarity of an evolutionary configuration of tethering two distinct enzyme activities in a single protein prompted us to investigate their individual and combined roles in budding yeast. Both PIP and PIP2 phosphatase activities are encoded by multiple gene products and are independently essential for cell viability. In contrast, we observed that the synaptojanin proteins utilized both lipid-phosphatase activities to properly coordinate polarized distribution of actin during the cell cycle. Expression of each activity untethered (in trans) failed to properly reconstitute the basal actin regulatory activity; whereas tethering (in cis), even through synthetic linkers, was sufficient to complement these defects. Studies of chimeric proteins harboring PIP and PIP2 phosphatase domains from a variety of gene products indicate synaptojanin proteins have highly specialized activities and that the length of the linker between the lipid-phosphatase domains is critical for actin regulatory activity. Our data are consistent with synaptojanin possessing a strict requirement for both two-domain configuration for some but not all functions and provide mechanistic insights into a coordinated role of tethering distinct lipid-phosphatase activities.

Abstract Image

突触素的肌醇脂磷酸酶协调活动调节肌动蛋白细胞骨架的组织结构
突触素蛋白是囊泡转运和膜稳态的进化保守调节因子。突触素蛋白功能紊乱与多种神经系统疾病有关。突触素是一种双功能脂质磷酸酶,能够通过类似 SAC1 的自主 PIP 4- 磷酸酶和 PIP2 5- 磷酸酶结构域水解多种磷脂酰肌醇(PIP)。在单个蛋白质中拴系两种不同酶活性的进化构型非常罕见,这促使我们研究它们在芽殖酵母中的单独作用和联合作用。PIP 和 PIP2 磷酸酶活性均由多个基因产物编码,并且对细胞活力都是独立的。相反,我们观察到突触酵母蛋白利用这两种脂质磷酸酶活性来正确协调细胞周期中肌动蛋白的极化分布。每种活性的无系表达(反式)都不能正确地重建基础肌动蛋白调节活性;而系表达(顺式),即使是通过合成连接体,也足以补充这些缺陷。对来自多种基因产物、含有 PIP 和 PIP2 磷酸酶结构域的嵌合蛋白的研究表明,突触素蛋白具有高度特化的活性,而且脂质磷酸酶结构域之间连接体的长度对肌动蛋白调控活性至关重要。我们的数据与 synaptojanin 蛋白的某些功能(而非全部功能)对双链构型的严格要求相一致,并从机理上揭示了拴系不同脂质磷酸酶活性的协调作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advances in biological regulation
Advances in biological regulation Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
8.90
自引率
0.00%
发文量
41
审稿时长
17 days
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