STIM2 Is a Feedback Regulator that Stabilizes Basal Cytosolic and Endoplasmic Reticulum Ca2+ Levels

Onn Brandman; Jen Liou; Wei Sun Park; Tobias Meyer

doi:10.1016/j.cell.2007.11.039

STIM2 Is a Feedback Regulator that Stabilizes Basal Cytosolic and Endoplasmic Reticulum Ca²⁺ Levels

Onn Brandman, Jen Liou, Wei Sun Park, Tobias Meyer

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

564 Scopus citations

Abstract

Deviations in basal Ca²⁺ levels interfere with receptor-mediated Ca²⁺ signaling as well as endoplasmic reticulum (ER) and mitochondrial function. While defective basal Ca²⁺ regulation has been linked to various diseases, the regulatory mechanism that controls basal Ca²⁺ is poorly understood. Here we performed an siRNA screen of the human signaling proteome to identify regulators of basal Ca²⁺ concentration and found STIM2 as the strongest positive regulator. In contrast to STIM1, a recently discovered signal transducer that triggers Ca²⁺ influx in response to receptor-mediated depletion of ER Ca²⁺ stores, STIM2 activated Ca²⁺ influx upon smaller decreases in ER Ca²⁺. STIM2, like STIM1, caused Ca²⁺ influx via activation of the plasma membrane Ca²⁺ channel Orai1. Our study places STIM2 at the center of a feedback module that keeps basal cytosolic and ER Ca²⁺ concentrations within tight limits.

Original language	English (US)
Pages (from-to)	1327-1339
Number of pages	13
Journal	Cell
Volume	131
Issue number	7
DOIs	https://doi.org/10.1016/j.cell.2007.11.039
State	Published - Dec 28 2007

Keywords

CELLBIO
SIGNALING

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

Access to Document

10.1016/j.cell.2007.11.039

Cite this

@article{71dc012162a24e089a48cc5259d32357,

title = "STIM2 Is a Feedback Regulator that Stabilizes Basal Cytosolic and Endoplasmic Reticulum Ca2+ Levels",

abstract = "Deviations in basal Ca2+ levels interfere with receptor-mediated Ca2+ signaling as well as endoplasmic reticulum (ER) and mitochondrial function. While defective basal Ca2+ regulation has been linked to various diseases, the regulatory mechanism that controls basal Ca2+ is poorly understood. Here we performed an siRNA screen of the human signaling proteome to identify regulators of basal Ca2+ concentration and found STIM2 as the strongest positive regulator. In contrast to STIM1, a recently discovered signal transducer that triggers Ca2+ influx in response to receptor-mediated depletion of ER Ca2+ stores, STIM2 activated Ca2+ influx upon smaller decreases in ER Ca2+. STIM2, like STIM1, caused Ca2+ influx via activation of the plasma membrane Ca2+ channel Orai1. Our study places STIM2 at the center of a feedback module that keeps basal cytosolic and ER Ca2+ concentrations within tight limits.",

keywords = "CELLBIO, SIGNALING",

author = "Onn Brandman and Jen Liou and Park, {Wei Sun} and Tobias Meyer",

note = "Funding Information: We thank the following people for contributions: Phil Vitorino, Mark Hammer, and Dr. Marc Fivaz for helpful suggestions and careful reading of the manuscript; Drs. Rajat Rohatgi and Eric Humke for help with western blots; Dr. Yigal Brandman for help with puncta analysis; Man Lyang Kim and Drs. Won Do Heo, Josh Jones, Jason Myers, and J.L. for generating the siRNA library; and Jess Field for help with graphic design. This work was supported by a grant to T.M. from the Sandler Foundation and NIH grant GM030179. O.B. was funded by an NSF Predoctoral Fellowship. ",

year = "2007",

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doi = "10.1016/j.cell.2007.11.039",

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AU - Brandman, Onn

AU - Liou, Jen

AU - Park, Wei Sun

AU - Meyer, Tobias

N1 - Funding Information: We thank the following people for contributions: Phil Vitorino, Mark Hammer, and Dr. Marc Fivaz for helpful suggestions and careful reading of the manuscript; Drs. Rajat Rohatgi and Eric Humke for help with western blots; Dr. Yigal Brandman for help with puncta analysis; Man Lyang Kim and Drs. Won Do Heo, Josh Jones, Jason Myers, and J.L. for generating the siRNA library; and Jess Field for help with graphic design. This work was supported by a grant to T.M. from the Sandler Foundation and NIH grant GM030179. O.B. was funded by an NSF Predoctoral Fellowship.

PY - 2007/12/28

Y1 - 2007/12/28

N2 - Deviations in basal Ca2+ levels interfere with receptor-mediated Ca2+ signaling as well as endoplasmic reticulum (ER) and mitochondrial function. While defective basal Ca2+ regulation has been linked to various diseases, the regulatory mechanism that controls basal Ca2+ is poorly understood. Here we performed an siRNA screen of the human signaling proteome to identify regulators of basal Ca2+ concentration and found STIM2 as the strongest positive regulator. In contrast to STIM1, a recently discovered signal transducer that triggers Ca2+ influx in response to receptor-mediated depletion of ER Ca2+ stores, STIM2 activated Ca2+ influx upon smaller decreases in ER Ca2+. STIM2, like STIM1, caused Ca2+ influx via activation of the plasma membrane Ca2+ channel Orai1. Our study places STIM2 at the center of a feedback module that keeps basal cytosolic and ER Ca2+ concentrations within tight limits.

AB - Deviations in basal Ca2+ levels interfere with receptor-mediated Ca2+ signaling as well as endoplasmic reticulum (ER) and mitochondrial function. While defective basal Ca2+ regulation has been linked to various diseases, the regulatory mechanism that controls basal Ca2+ is poorly understood. Here we performed an siRNA screen of the human signaling proteome to identify regulators of basal Ca2+ concentration and found STIM2 as the strongest positive regulator. In contrast to STIM1, a recently discovered signal transducer that triggers Ca2+ influx in response to receptor-mediated depletion of ER Ca2+ stores, STIM2 activated Ca2+ influx upon smaller decreases in ER Ca2+. STIM2, like STIM1, caused Ca2+ influx via activation of the plasma membrane Ca2+ channel Orai1. Our study places STIM2 at the center of a feedback module that keeps basal cytosolic and ER Ca2+ concentrations within tight limits.

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