WNK1 phosphorylates synaptotagmin 2 and modulates its membrane binding

Byung Hoon Lee; Xiaoshan Min; Charles J. Heise; Bing E. Xu; She Chen; Hongjun Shu; Kate Luby-Phelps; Elizabeth J. Goldsmith; Melanie H. Cobb

doi:10.1016/j.molcel.2004.07.018

WNK1 phosphorylates synaptotagmin 2 and modulates its membrane binding

Byung Hoon Lee, Xiaoshan Min, Charles J. Heise, Bing E. Xu, She Chen, Hongjun Shu, Kate Luby-Phelps, Elizabeth J. Goldsmith, Melanie H. Cobb

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

67 Scopus citations

Abstract

WNK (with no lysine [K]) protein kinases were named for their unique active site organization. Mutations in WNK1 and WNK4 cause a familial form of hypertension by undefined mechanisms. Here, we report that WNK1 selectively binds to and phosphorylates synaptotagmin 2 (Syt2) within its calcium binding C2 domains. Endogenous WNK1 and Syt2 coimmunoprecipitate and colocalize on a subset of secretory granules in INS-1 cells. Phosphorylation by WNK1 increases the amount of Ca²⁺ required for Syt2 binding to phospholipid vesicles; mutation of threonine 202, a WNK1 phosphorylation site, partially prevents this change. These findings suggest that phosphorylation of Syts by WNK1 can regulate Ca²⁺ sensing and the subsequent Ca ²⁺-dependent interactions mediated by Syt C2 domains. These findings provide a biochemical mechanism that could lead to the retention or insertion of proteins in the plasma membrane. Interruption of this regulatory pathway may disturb membrane events that regulate ion balance.

Original language	English (US)
Pages (from-to)	741-751
Number of pages	11
Journal	Molecular cell
Volume	15
Issue number	5
DOIs	https://doi.org/10.1016/j.molcel.2004.07.018
State	Published - Sep 10 2004

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1016/j.molcel.2004.07.018

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@article{cbd446a83c284c7bb64b7df3187cdb57,

title = "WNK1 phosphorylates synaptotagmin 2 and modulates its membrane binding",

abstract = "WNK (with no lysine [K]) protein kinases were named for their unique active site organization. Mutations in WNK1 and WNK4 cause a familial form of hypertension by undefined mechanisms. Here, we report that WNK1 selectively binds to and phosphorylates synaptotagmin 2 (Syt2) within its calcium binding C2 domains. Endogenous WNK1 and Syt2 coimmunoprecipitate and colocalize on a subset of secretory granules in INS-1 cells. Phosphorylation by WNK1 increases the amount of Ca2+ required for Syt2 binding to phospholipid vesicles; mutation of threonine 202, a WNK1 phosphorylation site, partially prevents this change. These findings suggest that phosphorylation of Syts by WNK1 can regulate Ca2+ sensing and the subsequent Ca 2+-dependent interactions mediated by Syt C2 domains. These findings provide a biochemical mechanism that could lead to the retention or insertion of proteins in the plasma membrane. Interruption of this regulatory pathway may disturb membrane events that regulate ion balance.",

author = "Lee, {Byung Hoon} and Xiaoshan Min and Heise, {Charles J.} and Xu, {Bing E.} and She Chen and Hongjun Shu and Kate Luby-Phelps and Goldsmith, {Elizabeth J.} and Cobb, {Melanie H.}",

note = "Funding Information: We thank Joe Albanesi, Barbara Barylko, Tom S{\"u}dhof, Jose Rizo-Rey, Elliott Ross, Paul Sternweis, Cai Li, and members of the Cobb laboratory (UT Southwestern) for comments about the data and manuscript, Malavika Raman for suggestions about data presentation, Tom S{\"u}dhof for cDNAs encoding Syt isoforms, Mark Henkemeyer for the brain cDNA library, Marc Mumby for suggestions about mass spectrometry, Svetlana Earnest and Steve Stippec for technical assistance, and Dionne Ware for administrative assistance. This work was supported by grants from the National Institutes of Health (GM53032 to M.H.C.) and the Welch Foundation (I1243 to M.H.C. and I1128 to E.J.G.). This work partially fulfills the requirements for the Ph.D. degree. ",

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doi = "10.1016/j.molcel.2004.07.018",

language = "English (US)",

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T1 - WNK1 phosphorylates synaptotagmin 2 and modulates its membrane binding

AU - Lee, Byung Hoon

AU - Min, Xiaoshan

AU - Heise, Charles J.

AU - Xu, Bing E.

AU - Chen, She

AU - Shu, Hongjun

AU - Luby-Phelps, Kate

AU - Goldsmith, Elizabeth J.

AU - Cobb, Melanie H.

N1 - Funding Information: We thank Joe Albanesi, Barbara Barylko, Tom Südhof, Jose Rizo-Rey, Elliott Ross, Paul Sternweis, Cai Li, and members of the Cobb laboratory (UT Southwestern) for comments about the data and manuscript, Malavika Raman for suggestions about data presentation, Tom Südhof for cDNAs encoding Syt isoforms, Mark Henkemeyer for the brain cDNA library, Marc Mumby for suggestions about mass spectrometry, Svetlana Earnest and Steve Stippec for technical assistance, and Dionne Ware for administrative assistance. This work was supported by grants from the National Institutes of Health (GM53032 to M.H.C.) and the Welch Foundation (I1243 to M.H.C. and I1128 to E.J.G.). This work partially fulfills the requirements for the Ph.D. degree.

PY - 2004/9/10

Y1 - 2004/9/10

N2 - WNK (with no lysine [K]) protein kinases were named for their unique active site organization. Mutations in WNK1 and WNK4 cause a familial form of hypertension by undefined mechanisms. Here, we report that WNK1 selectively binds to and phosphorylates synaptotagmin 2 (Syt2) within its calcium binding C2 domains. Endogenous WNK1 and Syt2 coimmunoprecipitate and colocalize on a subset of secretory granules in INS-1 cells. Phosphorylation by WNK1 increases the amount of Ca2+ required for Syt2 binding to phospholipid vesicles; mutation of threonine 202, a WNK1 phosphorylation site, partially prevents this change. These findings suggest that phosphorylation of Syts by WNK1 can regulate Ca2+ sensing and the subsequent Ca 2+-dependent interactions mediated by Syt C2 domains. These findings provide a biochemical mechanism that could lead to the retention or insertion of proteins in the plasma membrane. Interruption of this regulatory pathway may disturb membrane events that regulate ion balance.

AB - WNK (with no lysine [K]) protein kinases were named for their unique active site organization. Mutations in WNK1 and WNK4 cause a familial form of hypertension by undefined mechanisms. Here, we report that WNK1 selectively binds to and phosphorylates synaptotagmin 2 (Syt2) within its calcium binding C2 domains. Endogenous WNK1 and Syt2 coimmunoprecipitate and colocalize on a subset of secretory granules in INS-1 cells. Phosphorylation by WNK1 increases the amount of Ca2+ required for Syt2 binding to phospholipid vesicles; mutation of threonine 202, a WNK1 phosphorylation site, partially prevents this change. These findings suggest that phosphorylation of Syts by WNK1 can regulate Ca2+ sensing and the subsequent Ca 2+-dependent interactions mediated by Syt C2 domains. These findings provide a biochemical mechanism that could lead to the retention or insertion of proteins in the plasma membrane. Interruption of this regulatory pathway may disturb membrane events that regulate ion balance.

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JO - Molecular cell

JF - Molecular cell

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ER -

WNK1 phosphorylates synaptotagmin 2 and modulates its membrane binding

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