Litcius/Paper detail

ER-localized phosphatidylethanolamine synthase plays a conserved role in lipid droplet formation

Mehmet Oguz Gok, Natalie Ortiz Speer, W. Mike Henne, Jonathan R. Friedman

2021Molecular Biology of the Cell17 citationsDOIOpen Access PDF

Abstract

The asymmetric distribution of phospholipids in membranes is a fundamental principle of cellular compartmentalization and organization. Phosphatidylethanolamine (PE), a nonbilayer phospholipid that contributes to organelle shape and function, is synthesized at several subcellular localizations via semiredundant pathways. Previously, we demonstrated in budding yeast that the PE synthase Psd1, which primarily operates on the mitochondrial inner membrane, is additionally targeted to the ER. While ER-localized Psd1 is required to support cellular growth in the absence of redundant pathways, its physiological function is unclear. We now demonstrate that ER-localized Psd1 sublocalizes on the ER to lipid droplet (LD) attachment sites and show it is specifically required for normal LD formation. We also find that the role of phosphatidylserine decarboxylase (PSD) enzymes in LD formation is conserved in other organisms. Thus we have identified PSD enzymes as novel regulators of LDs and demonstrate that both mitochondria and LDs in yeast are organized and shaped by the spatial positioning of a single PE synthesis enzyme.

Topics & Concepts

PhosphatidylethanolamineBiologyCell biologyOrganelleCompartmentalization (fire protection)PhosphatidylserineMitochondrionBiochemistryLipid dropletSaccharomyces cerevisiaeYeastInner membraneFunction (biology)PhospholipidATP synthaseEnzymeInner mitochondrial membraneIntermembrane spaceBudding yeastFlippaseEndosomeEndocytosisYarrowiaLipid metabolism and biosynthesisAutophagy in Disease and TherapyProtein Kinase Regulation and GTPase Signaling