Conformational surveillance of Orai1 by a rhomboid intramembrane protease prevents inappropriate CRAC channel activation

Adam G. Grieve; Yi Chun Yeh; Yu Fen Chang; Hsin Yi Huang; Lucrezia Zarcone; Johannes Breuning; Nicholas Johnson; Kvido Stříšovský; Marion H. Brown; Anant B. Parekh; Matthew Freeman

doi:10.1016/j.molcel.2021.10.025

Conformational surveillance of Orai1 by a rhomboid intramembrane protease prevents inappropriate CRAC channel activation

Adam G. Grieve^*
, Yi Chun Yeh
, Yu Fen Chang
, Hsin Yi Huang
, Lucrezia Zarcone
, Johannes Breuning
, Nicholas Johnson
, Kvido Stříšovský
, Marion H. Brown
, Anant B. Parekh
, Matthew Freeman^*

^*Corresponding author for this work

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

9 Scopus citations

Abstract

Calcium influx through plasma membrane calcium release-activated calcium (CRAC) channels, which are formed of hexamers of Orai1, is a potent trigger for many important biological processes, most notably in T cell-mediated immunity. Through a bioinformatics-led cell biological screen, we have identified Orai1 as a substrate for the rhomboid intramembrane protease RHBDL2. We show that RHBDL2 prevents stochastic calcium signaling in unstimulated cells through conformational surveillance and cleavage of inappropriately activated Orai1. A conserved disease-linked proline residue is responsible for RHBDL2’s recognizing the active conformation of Orai1, which is required to sharpen switch-like signaling triggered by store-operated calcium entry. Loss of RHBDL2 control of CRAC channel activity causes severe dysregulation of downstream CRAC channel effectors, including transcription factor activation, inflammatory cytokine expression, and T cell activation. We propose that this surveillance function may represent an ancient activity of rhomboid proteases in degrading unwanted signaling proteins.

Original language	English
Pages (from-to)	4784-4798.e7
Journal	Molecular Cell
Volume	81
Issue number	23
DOIs	https://doi.org/10.1016/j.molcel.2021.10.025
State	Published - 02 12 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2021 The Author(s)

Keywords

CRAC channel
Orai1
RHBDL2
T cell
calcium
rhomboid protease
signalling
transmembrane

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10.1016/j.molcel.2021.10.025

Cite this

Grieve, A. G., Yeh, Y. C., Chang, Y. F., Huang, H. Y., Zarcone, L., Breuning, J., Johnson, N., Stříšovský, K., Brown, M. H., Parekh, A. B., & Freeman, M. (2021). Conformational surveillance of Orai1 by a rhomboid intramembrane protease prevents inappropriate CRAC channel activation. Molecular Cell, 81(23), 4784-4798.e7. https://doi.org/10.1016/j.molcel.2021.10.025

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title = "Conformational surveillance of Orai1 by a rhomboid intramembrane protease prevents inappropriate CRAC channel activation",

abstract = "Calcium influx through plasma membrane calcium release-activated calcium (CRAC) channels, which are formed of hexamers of Orai1, is a potent trigger for many important biological processes, most notably in T cell-mediated immunity. Through a bioinformatics-led cell biological screen, we have identified Orai1 as a substrate for the rhomboid intramembrane protease RHBDL2. We show that RHBDL2 prevents stochastic calcium signaling in unstimulated cells through conformational surveillance and cleavage of inappropriately activated Orai1. A conserved disease-linked proline residue is responsible for RHBDL2{\textquoteright}s recognizing the active conformation of Orai1, which is required to sharpen switch-like signaling triggered by store-operated calcium entry. Loss of RHBDL2 control of CRAC channel activity causes severe dysregulation of downstream CRAC channel effectors, including transcription factor activation, inflammatory cytokine expression, and T cell activation. We propose that this surveillance function may represent an ancient activity of rhomboid proteases in degrading unwanted signaling proteins.",

keywords = "CRAC channel, Orai1, RHBDL2, T cell, calcium, rhomboid protease, signalling, transmembrane",

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doi = "10.1016/j.molcel.2021.10.025",

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AU - Grieve, Adam G.

AU - Yeh, Yi Chun

AU - Chang, Yu Fen

AU - Huang, Hsin Yi

AU - Zarcone, Lucrezia

AU - Breuning, Johannes

AU - Johnson, Nicholas

AU - Stříšovský, Kvido

AU - Brown, Marion H.

AU - Parekh, Anant B.

AU - Freeman, Matthew

PY - 2021/12/2

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N2 - Calcium influx through plasma membrane calcium release-activated calcium (CRAC) channels, which are formed of hexamers of Orai1, is a potent trigger for many important biological processes, most notably in T cell-mediated immunity. Through a bioinformatics-led cell biological screen, we have identified Orai1 as a substrate for the rhomboid intramembrane protease RHBDL2. We show that RHBDL2 prevents stochastic calcium signaling in unstimulated cells through conformational surveillance and cleavage of inappropriately activated Orai1. A conserved disease-linked proline residue is responsible for RHBDL2’s recognizing the active conformation of Orai1, which is required to sharpen switch-like signaling triggered by store-operated calcium entry. Loss of RHBDL2 control of CRAC channel activity causes severe dysregulation of downstream CRAC channel effectors, including transcription factor activation, inflammatory cytokine expression, and T cell activation. We propose that this surveillance function may represent an ancient activity of rhomboid proteases in degrading unwanted signaling proteins.

AB - Calcium influx through plasma membrane calcium release-activated calcium (CRAC) channels, which are formed of hexamers of Orai1, is a potent trigger for many important biological processes, most notably in T cell-mediated immunity. Through a bioinformatics-led cell biological screen, we have identified Orai1 as a substrate for the rhomboid intramembrane protease RHBDL2. We show that RHBDL2 prevents stochastic calcium signaling in unstimulated cells through conformational surveillance and cleavage of inappropriately activated Orai1. A conserved disease-linked proline residue is responsible for RHBDL2’s recognizing the active conformation of Orai1, which is required to sharpen switch-like signaling triggered by store-operated calcium entry. Loss of RHBDL2 control of CRAC channel activity causes severe dysregulation of downstream CRAC channel effectors, including transcription factor activation, inflammatory cytokine expression, and T cell activation. We propose that this surveillance function may represent an ancient activity of rhomboid proteases in degrading unwanted signaling proteins.

KW - CRAC channel

KW - Orai1

KW - RHBDL2

KW - T cell

KW - calcium

KW - rhomboid protease

KW - signalling

KW - transmembrane

UR - https://www.scopus.com/pages/publications/85119914778

U2 - 10.1016/j.molcel.2021.10.025

DO - 10.1016/j.molcel.2021.10.025

M3 - 文章

C2 - 34800360

AN - SCOPUS:85119914778

SN - 1097-2765

VL - 81

SP - 4784-4798.e7

JO - Molecular Cell

JF - Molecular Cell

IS - 23

ER -

Conformational surveillance of Orai1 by a rhomboid intramembrane protease prevents inappropriate CRAC channel activation

Abstract

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Keywords

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