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Genome-wide CRISPR screen reveals CLPTM1L as a lipid scramblase required for efficient glycosylphosphatidylinositol biosynthesis

Yicheng Wang, Anant K. Menon, Yuta Maki, Yi‐Shi Liu, Yugo Iwasaki, Morihisa Fujita, Paula A. Guerrero, Daniel Varón Silva, Peter H. Seeberger, Yoshiko Murakami, Taroh Kinoshita

2022Proceedings of the National Academy of Sciences36 citationsDOIOpen Access PDF

Abstract

SignificanceScramblases translocate lipids across the lipid bilayer without consumption of ATP, thereby regulating lipid distributions in cellular membranes. Cytosol-to-lumen translocation across the endoplasmic reticulum (ER) membrane is a common process among lipid glycoconjugates involved in posttranslational protein modifications in eukaryotes. These translocations are thought to be mediated by specific ER-resident scramblases, but the identity of these proteins and the underlying molecular mechanisms have been elusive. Here, we show that CLPTM1L, an integral membrane protein with eight putative transmembrane domains, is the major lipid scramblase involved in efficient glycosylphosphatidylinositol biosynthesis in the ER membrane. Our results validate the long-standing hypothesis that lipid scramblases ensure the efficient translocations of lipid glycoconjugates across the ER membrane for protein glycosylation pathways.

Topics & Concepts

Phospholipid scramblaseEndoplasmic reticulumCell biologyLipid bilayerBiologyGlycoconjugateMembrane contact siteFlippaseBiosynthesisTransmembrane proteinDiacylglycerol kinaseCytosolMembrane proteinTransloconEndosomeBiochemistryIntegral membrane proteinPhospholipidMembraneGeneSignal transductionPhosphatidylserineEnzymeProtein kinase CReceptorIntracellularCellular transport and secretionLysosomal Storage Disorders ResearchPhotosynthetic Processes and Mechanisms
Genome-wide CRISPR screen reveals CLPTM1L as a lipid scramblase required for efficient glycosylphosphatidylinositol biosynthesis | Litcius