Litcius/Paper detail

PtdSer as a signaling lipid determined by privileged localization of ORP5 and ORP8 at ER/PM junctional foci to determine PM and ER PtdSer/PI(4)P ratio and cell function

Woo Young Chung, Malini Ahuja, Beth A. McNally, Spencer R. Leibow, Henry K. E. Ohman, Ava Movahed Abtahi, Shmuel Muallem

2023Proceedings of the National Academy of Sciences18 citationsDOIOpen Access PDF

Abstract

The membrane contact site ER/PM junctions are hubs for signaling pathways, including Ca 2+ signaling. Phosphatidylserine (PtdSer) mediates various physiological functions; however, junctional PtdSer composition and the role of PtdSer in Ca 2+ signaling and Ca 2+ -dependent gene regulation are not understood. Here, we show that STIM1-formed junctions are required for PI(4)P/PtdSer exchange by ORP5 and ORP8, which have reciprocal lipid exchange modes and function as a rheostat that sets the junctional PtdSer/PI(4)P ratio. Targeting the ORP5 and ORP8 and their lipid transfer ORD domains to PM subdomains revealed that ORP5 sets low and ORP8 high junctional PI(4)P/PtdSer ratio that controls STIM1-STIM1 and STIM1-Orai1 interaction and the activity of the SERCA pump to determine the pattern of receptor-evoked Ca 2+ oscillations, and consequently translocation of NFAT to the nucleus. Significantly, targeting the ORP5 and ORP8 ORDs to the STIM1 ER subdomain reversed their function. Notably, changing PI(4)P/PtdSer ratio by hydrolysis of PM or ER PtdSer with targeted PtdSer-specific PLA1a1 reproduced the ORPs function. The function of the ORPs is determined both by their differential lipid exchange modes and by privileged localization at the ER/PM subdomains. These findings reveal a role of PtdSer as a signaling lipid that controls the available PM PI(4)P, the unappreciated role of ER PtdSer in cell function, and the diversity of the ER/PM junctions. The effect of PtdSer on the junctional PI(4)P level should have multiple implications in cellular signaling and functions.

Topics & Concepts

PhosphatidylserineCell biologyFunction (biology)ORAI1Endoplasmic reticulumLipid microdomainSTIM1Lipid dropletPiBiologyBiophysicsBiochemistryMembranePhospholipidIon Channels and ReceptorsNeurobiology and Insect Physiology ResearchConnexins and lens biology