延长突触结合蛋白（ESyt）三基因敲除小鼠可存活且可育，无明显内质网功能障碍。

Extended Synaptotagmin (ESyt) Triple Knock-Out Mice Are Viable and Fertile without Obvious Endoplasmic Reticulum Dysfunction.

作者信息

Sclip Alessandra, Bacaj Taulant, Giam Louise R, Südhof Thomas C

机构信息

Department of Molecular and Cellular Physiology, Stanford University School of Medicine, 265 Campus Drive, Stanford, CA, 94305-5453, United States of America.

Howard Hughes Medical Institute, Stanford University Medical School, 265 Campus Drive, Stanford, CA, United States of America.

出版信息

PLoS One. 2016 Jun 27;11(6):e0158295. doi: 10.1371/journal.pone.0158295. eCollection 2016.

DOI:10.1371/journal.pone.0158295

PMID:27348751

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4922586/

Abstract

Extended synaptotagmins (ESyts) are endoplasmic reticulum (ER) proteins composed of an N-terminal transmembrane region, a central SMP-domain, and five (ESyt1) or three C-terminal cytoplasmic C2-domains (ESyt2 and ESyt3). ESyts bind phospholipids in a Ca2+-dependent manner via their C2-domains, are localized to ER-plasma membrane contact sites, and may catalyze lipid exchange between the plasma membrane and the ER via their SMP-domains. However, the overall function of ESyts has remained enigmatic. Here, we generated triple constitutive and conditional knock-out mice that lack all three ESyt isoforms; in addition, we produced knock-in mice that express mutant ESyt1 or ESyt2 carrying inactivating substitutions in the Ca2+-binding sites of their C2A-domains. Strikingly, all ESyt mutant mice, even those lacking all ESyts, were apparently normal and survived and bred in a manner indistinguishable from control mice. ESyt mutant mice displayed no major changes in brain morphology or synaptic protein composition, and exhibited no large alterations in stress responses. Thus, in mice ESyts do not perform an essential role in basic cellular functions, suggesting that these highly conserved proteins may perform a specialized role that may manifest only during specific, as yet untested challenges.

摘要

延伸突触结合蛋白（ESyts）是内质网（ER）蛋白，由一个N端跨膜区域、一个中央SMP结构域和五个（ESyt1）或三个C端胞质C2结构域（ESyt2和ESyt3）组成。ESyts通过其C2结构域以Ca2+依赖的方式结合磷脂，定位于内质网-质膜接触位点，并可能通过其SMP结构域催化质膜与内质网之间的脂质交换。然而，ESyts的整体功能一直是个谜。在这里，我们构建了缺失所有三种ESyt亚型的三基因组成型和条件性敲除小鼠；此外，我们还培育了表达突变型ESyt1或ESyt2的敲入小鼠，这些突变体在其C2A结构域的Ca2+结合位点携带失活替代。令人惊讶的是，所有ESyt突变小鼠，甚至那些缺乏所有ESyts的小鼠，外观上都是正常的，并且存活和繁殖方式与对照小鼠没有区别。ESyt突变小鼠的脑形态或突触蛋白组成没有重大变化，应激反应也没有大的改变。因此，在小鼠中，ESyts在基本细胞功能中不发挥重要作用，这表明这些高度保守的蛋白可能发挥一种仅在特定的、尚未测试的挑战中才会显现的特殊作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c94a/4922586/4d80ffeda3e3/pone.0158295.g001.jpg

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Extended Synaptotagmin (ESyt) Triple Knock-Out Mice Are Viable and Fertile without Obvious Endoplasmic Reticulum Dysfunction.延长突触结合蛋白（ESyt）三基因敲除小鼠可存活且可育，无明显内质网功能障碍。

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Correction: Extended Synaptotagmin (ESyt) Triple Knock-Out Mice Are Viable and Fertile without Obvious Endoplasmic Reticulum Dysfunction.更正：延长突触结合蛋白（ESyt）三敲除小鼠可存活且可育，无明显内质网功能障碍。

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延长突触结合蛋白（ESyt）三基因敲除小鼠可存活且可育，无明显内质网功能障碍。

Extended Synaptotagmin (ESyt) Triple Knock-Out Mice Are Viable and Fertile without Obvious Endoplasmic Reticulum Dysfunction.

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