PERK recruits E-Syt1 at ER-mitochondria contacts for mitochondrial lipid transport and respiration.
Maria-Livia SassanoAlexander R van VlietEllen VervoortSofie Van EygenChris Van den HauteBenjamin PavieJoris RoelsJohannes V SwinnenMarco SpinazziLeen MoensKristina CasteelsIsabelle MeytsPaolo PintonSaverio MarchiLeila RochinFrancesca GiordanoBlanca Felipe-AbrioPatrizia AgostinisPublished in: The Journal of cell biology (2023)
The integrity of ER-mitochondria appositions ensures transfer of ions and phospholipids (PLs) between these organelles and exerts crucial effects on mitochondrial bioenergetics. Malfunctions within the ER-mitochondria contacts altering lipid trafficking homeostasis manifest in diverse pathologies, but the molecular effectors governing this process remain ill-defined. Here, we report that PERK promotes lipid trafficking at the ER-mitochondria contact sites (EMCS) through a non-conventional, unfolded protein response-independent, mechanism. PERK operates as an adaptor for the recruitment of the ER-plasma membrane tether and lipid transfer protein (LTP) Extended-Synaptotagmin 1 (E-Syt1), within the EMCS. In resting cells, the heterotypic E-Syt1-PERK interaction endorses transfer of PLs between the ER and mitochondria. Weakening the E-Syt1-PERK interaction or removing the lipid transfer SMP-domain of E-Syt1, compromises mitochondrial respiration. Our findings unravel E-Syt1 as a PERK interacting LTP and molecular component of the lipid trafficking machinery of the EMCS, which critically maintains mitochondrial homeostasis and fitness.