Substrates of P4-ATPases: beyond aminophospholipids (phosphatidylserine and phosphatidylethanolamine)

P4-ATPases, a subfamily of P-type ATPases, were initially identified as aminophospholipid translocases in eukaryotic membranes. These proteins generate and maintain membrane lipid asymmetry by translocating aminophospholipids (phosphatidylserine and phosphatidylethanolamine) from the exoplasmic/lumenal leaflet to the cytoplasmic leaflet. The human genome encodes 14 P4-ATPases, and the cellular localizations, substrate specificities, and cellular roles of these proteins were recently revealed. Numerous P4-ATPases, including ATP8A1, ATP8A2, ATP11A, ATP11B, and ATP11C, transport phosphatidylserine. By contrast, ATP8B1, ATP8B2, and ATP10A transport phosphatidylcholine but not aminophospholipids, although there is a discrepancy regarding the substrate of ATP8B1 in the literature. Some yeast and plant P4-ATPases can also translocate phosphatidylcholine. At least 2 P4-ATPases (ATP8A2 and ATP8B1) are associated with severe human diseases, and other P4-ATPases are implicated in various pathophysiologic conditions in mouse models. Here, we discuss the cellular functions of phosphatidylcholine flippases and suggest a model for the phenotype of progressive familial intrahepatic cholestasis 1 caused by a defect in ATP8B1.Shin, H.-W., Takatsu, H. Substrates of P4-ATPases: beyond aminophospholipids (phosphatidylserine and phosphatidylethanolamine).