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Regulation of phospholipid distribution in the lipid bilayer by flippases and scramblases
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Regulation of phospholipid distribution in the lipid bilayer by flippases and scramblases
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Journal Article
Regulation of phospholipid distribution in the lipid bilayer by flippases and scramblases
2023
Overview
Cellular membranes function as permeability barriers that separate cells from the external environment or partition cells into distinct compartments. These membranes are lipid bilayers composed of glycerophospholipids, sphingolipids and cholesterol, in which proteins are embedded. Glycerophospholipids and sphingolipids freely move laterally, whereas transverse movement between lipid bilayers is limited. Phospholipids are asymmetrically distributed between membrane leaflets but change their location in biological processes, serving as signalling molecules or enzyme activators. Designated proteins — flippases and scramblases — mediate this lipid movement between the bilayers. Flippases mediate the confined localization of specific phospholipids (phosphatidylserine (PtdSer) and phosphatidylethanolamine) to the cytoplasmic leaflet. Scramblases randomly scramble phospholipids between leaflets and facilitate the exposure of PtdSer on the cell surface, which serves as an important signalling molecule and as an ‘eat me’ signal for phagocytes. Defects in flippases and scramblases cause various human diseases. We herein review the recent research on the structure of flippases and scramblases and their physiological roles. Although still poorly understood, we address the mechanisms by which they translocate phospholipids between lipid bilayers and how defects cause human diseases.Phospholipids are asymmetrically distributed between membrane leaflets but change their location in various biological processes, which requires designated proteins — flippases and scramblases. Recent insights into the functional mechanisms of these proteins pave the way for better understanding of the roles of membrane asymmetry and the (patho)physiological consequences of its disruption.
Publisher
Nature Publishing Group
Subject
