A plasma membrane template for macropinocytic cups

A plasma membrane template for macropinocytic cups

Macropinocytosis is a fundamental mechanism that allows cells to take up extracellular liquid into large vesicles. It critically depends on the formation of a ring of protrusive actin beneath the plasma membrane, which develops into the macropinocytic cup. We show that macropinocytic cups in Dictyos...

Full description

Bibliographic Details
Main Authors: Douwe M Veltman, Thomas D Williams, Gareth Bloomfield, Bi-Chang Chen, Eric Betzig, Robert H Insall, Robert R Kay
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2016-12-01
Series:eLife
Subjects:
macropinocytosis
actin cytoskeleton
SCAR/WAVE
Online Access:https://elifesciences.org/articles/20085
id doaj-65db319e912842dca494acd238a2fdf7
record_format Article
spelling doaj-65db319e912842dca494acd238a2fdf72021-05-05T00:46:21ZengeLife Sciences Publications LtdeLife2050-084X2016-12-01510.7554/eLife.20085A plasma membrane template for macropinocytic cupsDouwe M Veltman0https://orcid.org/0000-0002-9512-3235Thomas D Williams1Gareth Bloomfield2Bi-Chang Chen3Eric Betzig4Robert H Insall5Robert R Kay6MRC Laboratory of Molecular Biology, Cambridge, United Kingdom; Beatson Institute for Cancer Research, Glasgow, United KingdomMRC Laboratory of Molecular Biology, Cambridge, United KingdomMRC Laboratory of Molecular Biology, Cambridge, United KingdomJanelia Farm Research Campus, Howard Hughes Medical Institute, Ashburn, United StatesJanelia Farm Research Campus, Howard Hughes Medical Institute, Ashburn, United StatesBeatson Institute for Cancer Research, Glasgow, United KingdomMRC Laboratory of Molecular Biology, Cambridge, United KingdomMacropinocytosis is a fundamental mechanism that allows cells to take up extracellular liquid into large vesicles. It critically depends on the formation of a ring of protrusive actin beneath the plasma membrane, which develops into the macropinocytic cup. We show that macropinocytic cups in Dictyostelium are organised around coincident intense patches of PIP3, active Ras and active Rac. These signalling patches are invariably associated with a ring of active SCAR/WAVE at their periphery, as are all examined structures based on PIP3 patches, including phagocytic cups and basal waves. Patch formation does not depend on the enclosing F-actin ring, and patches become enlarged when the RasGAP NF1 is mutated, showing that Ras plays an instructive role. New macropinocytic cups predominantly form by splitting from existing ones. We propose that cup-shaped plasma membrane structures form from self-organizing patches of active Ras/PIP3, which recruit a ring of actin nucleators to their periphery.https://elifesciences.org/articles/20085macropinocytosisactin cytoskeletonSCAR/WAVE
collection DOAJ
language English
format Article
sources DOAJ
author Douwe M Veltman
Thomas D Williams
Gareth Bloomfield
Bi-Chang Chen
Eric Betzig
Robert H Insall
Robert R Kay
spellingShingle Douwe M Veltman
Thomas D Williams
Gareth Bloomfield
Bi-Chang Chen
Eric Betzig
Robert H Insall
Robert R Kay
A plasma membrane template for macropinocytic cups
eLife
macropinocytosis
actin cytoskeleton
SCAR/WAVE
author_facet Douwe M Veltman
Thomas D Williams
Gareth Bloomfield
Bi-Chang Chen
Eric Betzig
Robert H Insall
Robert R Kay
author_sort Douwe M Veltman
title A plasma membrane template for macropinocytic cups
title_short A plasma membrane template for macropinocytic cups
title_full A plasma membrane template for macropinocytic cups
title_fullStr A plasma membrane template for macropinocytic cups
title_full_unstemmed A plasma membrane template for macropinocytic cups
title_sort plasma membrane template for macropinocytic cups
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2016-12-01
description Macropinocytosis is a fundamental mechanism that allows cells to take up extracellular liquid into large vesicles. It critically depends on the formation of a ring of protrusive actin beneath the plasma membrane, which develops into the macropinocytic cup. We show that macropinocytic cups in Dictyostelium are organised around coincident intense patches of PIP3, active Ras and active Rac. These signalling patches are invariably associated with a ring of active SCAR/WAVE at their periphery, as are all examined structures based on PIP3 patches, including phagocytic cups and basal waves. Patch formation does not depend on the enclosing F-actin ring, and patches become enlarged when the RasGAP NF1 is mutated, showing that Ras plays an instructive role. New macropinocytic cups predominantly form by splitting from existing ones. We propose that cup-shaped plasma membrane structures form from self-organizing patches of active Ras/PIP3, which recruit a ring of actin nucleators to their periphery.
topic macropinocytosis
actin cytoskeleton
SCAR/WAVE
url https://elifesciences.org/articles/20085
work_keys_str_mv AT douwemveltman aplasmamembranetemplateformacropinocyticcups
AT thomasdwilliams aplasmamembranetemplateformacropinocyticcups
AT garethbloomfield aplasmamembranetemplateformacropinocyticcups
AT bichangchen aplasmamembranetemplateformacropinocyticcups
AT ericbetzig aplasmamembranetemplateformacropinocyticcups
AT roberthinsall aplasmamembranetemplateformacropinocyticcups
AT robertrkay aplasmamembranetemplateformacropinocyticcups
AT douwemveltman plasmamembranetemplateformacropinocyticcups
AT thomasdwilliams plasmamembranetemplateformacropinocyticcups
AT garethbloomfield plasmamembranetemplateformacropinocyticcups
AT bichangchen plasmamembranetemplateformacropinocyticcups
AT ericbetzig plasmamembranetemplateformacropinocyticcups
AT roberthinsall plasmamembranetemplateformacropinocyticcups
AT robertrkay plasmamembranetemplateformacropinocyticcups
_version_ 1721476066244034560

Similar Items