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CRAC channel opening is determined by a series of Orai1 gating checkpoints in the transmembrane and cytosolic regions

Adéla Tiffner, Romana Schober, Carmen Höglinger, Daniel Bonhenry, Saurabh Pandey, Victoria Lunz, Matthias Sallinger, Irene Frischauf, Marc Fahrner, Sonja Lindinger, Lena Maltan, Sascha Berlansky, Michael Stadlbauer, Rainer Schindl, Rüdiger Ettrich, Christoph Romanin, Isabella Derler

2020Journal of Biological Chemistry29 citationsDOIOpen Access PDF

Abstract

store depletion of the endoplasmic reticulum. Previous studies using constitutively active Orai1 mutants gave rise to, but did not directly test, the hypothesis that STIM1-mediated Orai1 pore opening is accompanied by a global conformational change of all Orai transmembrane domain (TM) helices within the channel complex. We prove that a local conformational change spreads omnidirectionally within the Orai1 complex. Our results demonstrate that these locally induced global, opening-permissive TM motions are indispensable for pore opening and require clearance of a series of Orai1 gating checkpoints. We discovered these gating checkpoints in the middle and cytosolic extended TM domain regions. Our findings are based on a library of double point mutants that contain each one loss-of-function with one gain-of-function point mutation in a series of possible combinations. We demonstrated that an array of loss-of-function mutations are dominant over most gain-of-function mutations within the same as well as of an adjacent Orai subunit. We further identified inter- and intramolecular salt-bridge interactions of Orai subunits as a core element of an opening-permissive Orai channel architecture. Collectively, clearance and synergistic action of all these gating checkpoints are required to allow STIM1 coupling and Orai1 pore opening. Our results unravel novel insights in the preconditions of the unique fingerprint of CRAC channel activation, provide a valuable source for future structural resolutions, and help to understand the molecular basis of disease-causing mutations.

Topics & Concepts

ORAI1GatingSTIM1Endoplasmic reticulumTransmembrane domainTransmembrane proteinChemistryBiophysicsCell biologyMutantProtein subunitCytosolBiochemistryBiologyMembraneReceptorEnzymeGeneIon Channels and ReceptorsPhytochemicals and Antioxidant ActivitiesNeurobiology and Insect Physiology Research