p37 的磷酸化对于有丝分裂时高尔基体的解体很重要。

Phosphorylation of p37 is important for Golgi disassembly at mitosis.

机构信息

Department of Molecular Cell Biology, Graduate School of Medical Sciences, Kyushu University, Fukuoka 812-8582, Japan.

出版信息

Biochem Biophys Res Commun. 2010 Nov 5;402(1):37-41. doi: 10.1016/j.bbrc.2010.09.097. Epub 2010 Sep 26.

DOI:10.1016/j.bbrc.2010.09.097

PMID:20875789

Abstract

In mammals, the Golgi apparatus is disassembled at early mitosis and reassembled at the end of mitosis. For Golgi disassembly, membrane fusion needs to be blocked. Golgi biogenesis requires two distinct p97ATPase-mediated membrane fusion, the p97/p47 and p97/p37 pathways. We previously reported that p47 phosphorylation on Serine-140 by Cdc2 results in mitotic inhibition of the p97/p47 pathway [11]. In this study, we demonstrate that p37 is phosphorylated on Serine-56 and Threonine-59 by Cdc2 at mitosis, and this phosphorylated p37 does not bind to Golgi membranes. Using an in vitro Golgi reassembly assay, we show that mutated p37(S56D, T59D), which mimics mitotic phosphorylation, does not cause any cisternal regrowth, indicating that p37 phosphorylation inhibits the p97/p37 pathway. Our results demonstrate that p37 phosphorylation on Serine-56 and Threonine-59 is important for Golgi disassembly at mitosis.

摘要

在哺乳动物中，高尔基体在早期有丝分裂时解体，在有丝分裂末期重新组装。为了使高尔基体解体，需要阻断膜融合。高尔基生物发生需要两种不同的 p97ATPase 介导的膜融合，即 p97/p47 和 p97/p37 途径。我们之前的研究报告表明，CDC2 对 p47 丝氨酸 140 的磷酸化导致 p97/p47 途径在有丝分裂中受到抑制[11]。在这项研究中，我们证明了 CDC2 在有丝分裂时将 p37 丝氨酸 56 和苏氨酸 59 磷酸化，并且这种磷酸化的 p37 不会与高尔基体膜结合。通过体外高尔基体重组实验，我们表明，模拟有丝分裂磷酸化的突变体 p37(S56D，T59D)不会引起任何小泡再生长，表明 p37 磷酸化抑制了 p97/p37 途径。我们的结果表明，p37 丝氨酸 56 和苏氨酸 59 的磷酸化对于有丝分裂时高尔基体的解体非常重要。

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p37 的磷酸化对于有丝分裂时高尔基体的解体很重要。

Phosphorylation of p37 is important for Golgi disassembly at mitosis.

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