PRMT5 regulates Golgi apparatus structure through methylation of the golgin GM130

Zhongwei Zhou; Xiaotian Sun; Zhenhua Zou; Litao Sun; Tao Zhang; Shaoshi Guo; Ya Wen; Lin Liu; Yi Wang; Jun Qin; Lei Li; Weimin Gong; Shilai Bao

doi:10.1038/cr.2010.56

PRMT5 regulates Golgi apparatus structure through methylation of the golgin GM130

Zhongwei Zhou, Xiaotian Sun, Zhenhua Zou, Litao Sun, Tao Zhang, Shaoshi Guo, Ya Wen, Lin Liu, Yi Wang, Jun Qin, Lei Li, Weimin Gong, Shilai Bao

Experimental Radiation Oncology

Research output: Contribution to journal › Article › peer-review

71 Scopus citations

Abstract

Maintenance of the Golgi apparatus (GA) structure and function depends on Golgi matrix proteins. The posttranslational modification of Golgi proteins such as phosphorylation of members of the golgin and GRASP families is important for determining Golgi architecture. Some Golgi proteins including golgin-84 are also known to be methylated, but the function of golgin methylation remains unclear. Here, we show that the protein arginine methyltransferase 5 (PRMT5) localizes to the GA and forms complexes with several components involved in GA ribbon formation and vesicle tethering. PRMT5 interacts with the golgin GM130, and depletion of PRMT5 causes defects in Golgi ribbon formation. Furthermore, PRMT5 methylates N-terminal arginines in GM130, and such arginine methylation appears critical for GA ribbon formation. Our findings reveal a molecular mechanism by which PRMT5-dependent arginine methylation of GM130 controls the maintenance of GA architecture.

Original language	English (US)
Pages (from-to)	1023-1033
Number of pages	11
Journal	Cell research
Volume	20
Issue number	9
DOIs	https://doi.org/10.1038/cr.2010.56
State	Published - Sep 2010

Keywords

Arginine methylation
GM130
Golgi structure
PRMT5

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1038/cr.2010.56

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title = "PRMT5 regulates Golgi apparatus structure through methylation of the golgin GM130",

abstract = "Maintenance of the Golgi apparatus (GA) structure and function depends on Golgi matrix proteins. The posttranslational modification of Golgi proteins such as phosphorylation of members of the golgin and GRASP families is important for determining Golgi architecture. Some Golgi proteins including golgin-84 are also known to be methylated, but the function of golgin methylation remains unclear. Here, we show that the protein arginine methyltransferase 5 (PRMT5) localizes to the GA and forms complexes with several components involved in GA ribbon formation and vesicle tethering. PRMT5 interacts with the golgin GM130, and depletion of PRMT5 causes defects in Golgi ribbon formation. Furthermore, PRMT5 methylates N-terminal arginines in GM130, and such arginine methylation appears critical for GA ribbon formation. Our findings reveal a molecular mechanism by which PRMT5-dependent arginine methylation of GM130 controls the maintenance of GA architecture.",

keywords = "Arginine methylation, GM130, Golgi structure, PRMT5",

author = "Zhongwei Zhou and Xiaotian Sun and Zhenhua Zou and Litao Sun and Tao Zhang and Shaoshi Guo and Ya Wen and Lin Liu and Yi Wang and Jun Qin and Lei Li and Weimin Gong and Shilai Bao",

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AU - Zhou, Zhongwei

AU - Sun, Xiaotian

AU - Zou, Zhenhua

AU - Sun, Litao

AU - Zhang, Tao

AU - Guo, Shaoshi

AU - Wen, Ya

AU - Liu, Lin

AU - Wang, Yi

AU - Qin, Jun

AU - Li, Lei

AU - Gong, Weimin

AU - Bao, Shilai

PY - 2010/9

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N2 - Maintenance of the Golgi apparatus (GA) structure and function depends on Golgi matrix proteins. The posttranslational modification of Golgi proteins such as phosphorylation of members of the golgin and GRASP families is important for determining Golgi architecture. Some Golgi proteins including golgin-84 are also known to be methylated, but the function of golgin methylation remains unclear. Here, we show that the protein arginine methyltransferase 5 (PRMT5) localizes to the GA and forms complexes with several components involved in GA ribbon formation and vesicle tethering. PRMT5 interacts with the golgin GM130, and depletion of PRMT5 causes defects in Golgi ribbon formation. Furthermore, PRMT5 methylates N-terminal arginines in GM130, and such arginine methylation appears critical for GA ribbon formation. Our findings reveal a molecular mechanism by which PRMT5-dependent arginine methylation of GM130 controls the maintenance of GA architecture.

AB - Maintenance of the Golgi apparatus (GA) structure and function depends on Golgi matrix proteins. The posttranslational modification of Golgi proteins such as phosphorylation of members of the golgin and GRASP families is important for determining Golgi architecture. Some Golgi proteins including golgin-84 are also known to be methylated, but the function of golgin methylation remains unclear. Here, we show that the protein arginine methyltransferase 5 (PRMT5) localizes to the GA and forms complexes with several components involved in GA ribbon formation and vesicle tethering. PRMT5 interacts with the golgin GM130, and depletion of PRMT5 causes defects in Golgi ribbon formation. Furthermore, PRMT5 methylates N-terminal arginines in GM130, and such arginine methylation appears critical for GA ribbon formation. Our findings reveal a molecular mechanism by which PRMT5-dependent arginine methylation of GM130 controls the maintenance of GA architecture.

KW - Arginine methylation

KW - GM130

KW - Golgi structure

KW - PRMT5

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PRMT5 regulates Golgi apparatus structure through methylation of the golgin GM130

Abstract

Keywords

ASJC Scopus subject areas

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