Rac1 Recruitment to the Archipelago Structure of the Focal Adhesion through the Fluid Membrane as Revealed by Single-Molecule Analysis

The focal adhesion (FA) is an integrin-based structure built in/on the plasma membrane (PM), linking the extracellular matrix to the actin stress-fibers, working as cell migration scaffolds. Previously, we proposed the archipelago architecture of the FA, in which FA largely consists of fluid membran...

Descripción completa

Detalles Bibliográficos
Autores principales: Shibata, Akihiro C E, Chen, Limin H, Nagai, Rie, Ishidate, Fumiyoshi, Chadda, Rahul, Miwa, Yoshihiro, Naruse, Keiji, Shirai, Yuki M, Fujiwara, Takahiro K, Kusumi, Akihiro
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley & Sons, Inc. 2013
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3627312/
https://www.ncbi.nlm.nih.gov/pubmed/23341328
http://dx.doi.org/10.1002/cm.21097
_version_ 1782266304048136192
author Shibata, Akihiro C E
Chen, Limin H
Nagai, Rie
Ishidate, Fumiyoshi
Chadda, Rahul
Miwa, Yoshihiro
Naruse, Keiji
Shirai, Yuki M
Fujiwara, Takahiro K
Kusumi, Akihiro
author_facet Shibata, Akihiro C E
Chen, Limin H
Nagai, Rie
Ishidate, Fumiyoshi
Chadda, Rahul
Miwa, Yoshihiro
Naruse, Keiji
Shirai, Yuki M
Fujiwara, Takahiro K
Kusumi, Akihiro
author_sort Shibata, Akihiro C E
collection PubMed
description The focal adhesion (FA) is an integrin-based structure built in/on the plasma membrane (PM), linking the extracellular matrix to the actin stress-fibers, working as cell migration scaffolds. Previously, we proposed the archipelago architecture of the FA, in which FA largely consists of fluid membrane, dotted with small islands accumulating FA proteins: membrane molecules enter the inter-island channels in the FA zone rather freely, and the integrins in the FA-protein islands rapidly exchanges with those in the bulk membrane. Here, we examined how Rac1, a small G-protein regulating FA formation, and its activators αPIX and βPIX, are recruited to the FA zones. PIX molecules are recruited from the cytoplasm to the FA zones directly. In contrast, majorities of Rac1 molecules first arrive from the cytoplasm on the general inner PM surface, and then enter the FA zones via lateral diffusion on the PM, which is possible due to rapid Rac1 diffusion even within the FA zones, slowed only by a factor of two to four compared with that outside. The constitutively-active Rac1 mutant exhibited temporary and all-time immobilizations in the FA zone, suggesting that upon PIX-induced Rac1 activation at the FA-protein islands, Rac1 tends to be immobilized at the FA-protein islands. © 2013 Wiley Periodicals, Inc
format Online
Article
Text
id pubmed-3627312
institution National Center for Biotechnology Information
language English
publishDate 2013
publisher John Wiley & Sons, Inc.
record_format MEDLINE/PubMed
spelling pubmed-36273122013-04-17 Rac1 Recruitment to the Archipelago Structure of the Focal Adhesion through the Fluid Membrane as Revealed by Single-Molecule Analysis Shibata, Akihiro C E Chen, Limin H Nagai, Rie Ishidate, Fumiyoshi Chadda, Rahul Miwa, Yoshihiro Naruse, Keiji Shirai, Yuki M Fujiwara, Takahiro K Kusumi, Akihiro Cytoskeleton (Hoboken) Research Articles The focal adhesion (FA) is an integrin-based structure built in/on the plasma membrane (PM), linking the extracellular matrix to the actin stress-fibers, working as cell migration scaffolds. Previously, we proposed the archipelago architecture of the FA, in which FA largely consists of fluid membrane, dotted with small islands accumulating FA proteins: membrane molecules enter the inter-island channels in the FA zone rather freely, and the integrins in the FA-protein islands rapidly exchanges with those in the bulk membrane. Here, we examined how Rac1, a small G-protein regulating FA formation, and its activators αPIX and βPIX, are recruited to the FA zones. PIX molecules are recruited from the cytoplasm to the FA zones directly. In contrast, majorities of Rac1 molecules first arrive from the cytoplasm on the general inner PM surface, and then enter the FA zones via lateral diffusion on the PM, which is possible due to rapid Rac1 diffusion even within the FA zones, slowed only by a factor of two to four compared with that outside. The constitutively-active Rac1 mutant exhibited temporary and all-time immobilizations in the FA zone, suggesting that upon PIX-induced Rac1 activation at the FA-protein islands, Rac1 tends to be immobilized at the FA-protein islands. © 2013 Wiley Periodicals, Inc John Wiley & Sons, Inc. 2013-03 2013-03-05 /pmc/articles/PMC3627312/ /pubmed/23341328 http://dx.doi.org/10.1002/cm.21097 Text en Copyright © 2013 Wiley Periodicals, Inc. http://creativecommons.org/licenses/by/2.5/ Re-use of this article is permitted in accordance with the Creative Commons Deed, Attribution 2.5, which does not permit commercial exploitation.
spellingShingle Research Articles
Shibata, Akihiro C E
Chen, Limin H
Nagai, Rie
Ishidate, Fumiyoshi
Chadda, Rahul
Miwa, Yoshihiro
Naruse, Keiji
Shirai, Yuki M
Fujiwara, Takahiro K
Kusumi, Akihiro
Rac1 Recruitment to the Archipelago Structure of the Focal Adhesion through the Fluid Membrane as Revealed by Single-Molecule Analysis
title Rac1 Recruitment to the Archipelago Structure of the Focal Adhesion through the Fluid Membrane as Revealed by Single-Molecule Analysis
title_full Rac1 Recruitment to the Archipelago Structure of the Focal Adhesion through the Fluid Membrane as Revealed by Single-Molecule Analysis
title_fullStr Rac1 Recruitment to the Archipelago Structure of the Focal Adhesion through the Fluid Membrane as Revealed by Single-Molecule Analysis
title_full_unstemmed Rac1 Recruitment to the Archipelago Structure of the Focal Adhesion through the Fluid Membrane as Revealed by Single-Molecule Analysis
title_short Rac1 Recruitment to the Archipelago Structure of the Focal Adhesion through the Fluid Membrane as Revealed by Single-Molecule Analysis
title_sort rac1 recruitment to the archipelago structure of the focal adhesion through the fluid membrane as revealed by single-molecule analysis
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3627312/
https://www.ncbi.nlm.nih.gov/pubmed/23341328
http://dx.doi.org/10.1002/cm.21097
work_keys_str_mv AT shibataakihiroce rac1recruitmenttothearchipelagostructureofthefocaladhesionthroughthefluidmembraneasrevealedbysinglemoleculeanalysis
AT chenliminh rac1recruitmenttothearchipelagostructureofthefocaladhesionthroughthefluidmembraneasrevealedbysinglemoleculeanalysis
AT nagairie rac1recruitmenttothearchipelagostructureofthefocaladhesionthroughthefluidmembraneasrevealedbysinglemoleculeanalysis
AT ishidatefumiyoshi rac1recruitmenttothearchipelagostructureofthefocaladhesionthroughthefluidmembraneasrevealedbysinglemoleculeanalysis
AT chaddarahul rac1recruitmenttothearchipelagostructureofthefocaladhesionthroughthefluidmembraneasrevealedbysinglemoleculeanalysis
AT miwayoshihiro rac1recruitmenttothearchipelagostructureofthefocaladhesionthroughthefluidmembraneasrevealedbysinglemoleculeanalysis
AT narusekeiji rac1recruitmenttothearchipelagostructureofthefocaladhesionthroughthefluidmembraneasrevealedbysinglemoleculeanalysis
AT shiraiyukim rac1recruitmenttothearchipelagostructureofthefocaladhesionthroughthefluidmembraneasrevealedbysinglemoleculeanalysis
AT fujiwaratakahirok rac1recruitmenttothearchipelagostructureofthefocaladhesionthroughthefluidmembraneasrevealedbysinglemoleculeanalysis
AT kusumiakihiro rac1recruitmenttothearchipelagostructureofthefocaladhesionthroughthefluidmembraneasrevealedbysinglemoleculeanalysis

Ejemplares similares