Pumping lipids with P4-ATPases

Rosa Laura Lopez Marques; Joost C.M. Holthuis; Thomas Günther-Pomorski

doi:10.1515/bc.2011.015

Pumping lipids with P4-ATPases

Rosa Laura Lopez Marques, Joost C.M. Holthuis, Thomas Günther-Pomorski

18 Citations (Scopus)

Abstract

While accumulating evidence indicates that P4-ATPases catalyze phospholipid transport across cellular bilayers, their kinship to cation-pumping ATPases has raised fundamental questions concerning the underlying flippase mechanism. Loss of P4-ATPase function perturbs vesicle formation in late secretory and endocytic compartments. An intriguing concept is that P4-ATPases help drive vesicle budding by generating imbalances in transbilayer lipid numbers. Moreover, activation of P4-ATPases by phosphoinositides and other effectors of coat recruitment provide a potential mechanism to confine flippase activity to sites of vesicle biogenesis. These developments have raised considerable interest in understanding the mechanism, regulation and biological implications of P4-ATPase-catalyzed phospholipid transport.

Original language	English
Journal	Biological Chemistry
Volume	392
Issue number	1-2
Pages (from-to)	67-76
Number of pages	10
ISSN	1431-6730
DOIs	https://doi.org/10.1515/bc.2011.015
Publication status	Published - 1 Jan 2011

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title = "Pumping lipids with P4-ATPases",

abstract = "While accumulating evidence indicates that P4-ATPases catalyze phospholipid transport across cellular bilayers, their kinship to cation-pumping ATPases has raised fundamental questions concerning the underlying flippase mechanism. Loss of P4-ATPase function perturbs vesicle formation in late secretory and endocytic compartments. An intriguing concept is that P4-ATPases help drive vesicle budding by generating imbalances in transbilayer lipid numbers. Moreover, activation of P4-ATPases by phosphoinositides and other effectors of coat recruitment provide a potential mechanism to confine flippase activity to sites of vesicle biogenesis. These developments have raised considerable interest in understanding the mechanism, regulation and biological implications of P4-ATPase-catalyzed phospholipid transport.",

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AU - Lopez Marques, Rosa Laura

AU - C.M. Holthuis, Joost

AU - Günther-Pomorski, Thomas

PY - 2011/1/1

Y1 - 2011/1/1

N2 - While accumulating evidence indicates that P4-ATPases catalyze phospholipid transport across cellular bilayers, their kinship to cation-pumping ATPases has raised fundamental questions concerning the underlying flippase mechanism. Loss of P4-ATPase function perturbs vesicle formation in late secretory and endocytic compartments. An intriguing concept is that P4-ATPases help drive vesicle budding by generating imbalances in transbilayer lipid numbers. Moreover, activation of P4-ATPases by phosphoinositides and other effectors of coat recruitment provide a potential mechanism to confine flippase activity to sites of vesicle biogenesis. These developments have raised considerable interest in understanding the mechanism, regulation and biological implications of P4-ATPase-catalyzed phospholipid transport.

AB - While accumulating evidence indicates that P4-ATPases catalyze phospholipid transport across cellular bilayers, their kinship to cation-pumping ATPases has raised fundamental questions concerning the underlying flippase mechanism. Loss of P4-ATPase function perturbs vesicle formation in late secretory and endocytic compartments. An intriguing concept is that P4-ATPases help drive vesicle budding by generating imbalances in transbilayer lipid numbers. Moreover, activation of P4-ATPases by phosphoinositides and other effectors of coat recruitment provide a potential mechanism to confine flippase activity to sites of vesicle biogenesis. These developments have raised considerable interest in understanding the mechanism, regulation and biological implications of P4-ATPase-catalyzed phospholipid transport.

U2 - 10.1515/bc.2011.015

DO - 10.1515/bc.2011.015

M3 - Journal article

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SN - 1431-6730

VL - 392

SP - 67

EP - 76

JO - Biological Chemistry

JF - Biological Chemistry

IS - 1-2

ER -

Pumping lipids with P4-ATPases

Abstract

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