ARHGAP45 controls naïve T‐ and B‐cell entry into lymph nodes and T‐cell progenitor thymus seeding

T and B cells continually recirculate between blood and secondary lymphoid organs. To promote their trans‐endothelial migration (TEM), chemokine receptors control the activity of RHO family small GTPases in part via GTPase‐activating proteins (GAPs). T and B cells express several RHO‐GAPs, the funct...

Descripción completa

Detalles Bibliográficos
Autores principales: He, Le, Valignat, Marie‐Pierre, Zhang, Lichen, Gelard, Lena, Zhang, Fanghui, Le Guen, Valentin, Audebert, Stéphane, Camoin, Luc, Fossum, Even, Bogen, Bjarne, Wang, Hui, Henri, Sandrine, Roncagalli, Romain, Theodoly, Olivier, Liang, Yinming, Malissen, Marie, Malissen, Bernard
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2021
Materias:
Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8024898/
https://www.ncbi.nlm.nih.gov/pubmed/33719206
http://dx.doi.org/10.15252/embr.202052196
_version_ 1783675404859473920
author He, Le
Valignat, Marie‐Pierre
Zhang, Lichen
Gelard, Lena
Zhang, Fanghui
Le Guen, Valentin
Audebert, Stéphane
Camoin, Luc
Fossum, Even
Bogen, Bjarne
Wang, Hui
Henri, Sandrine
Roncagalli, Romain
Theodoly, Olivier
Liang, Yinming
Malissen, Marie
Malissen, Bernard
author_facet He, Le
Valignat, Marie‐Pierre
Zhang, Lichen
Gelard, Lena
Zhang, Fanghui
Le Guen, Valentin
Audebert, Stéphane
Camoin, Luc
Fossum, Even
Bogen, Bjarne
Wang, Hui
Henri, Sandrine
Roncagalli, Romain
Theodoly, Olivier
Liang, Yinming
Malissen, Marie
Malissen, Bernard
author_sort He, Le
collection PubMed
description T and B cells continually recirculate between blood and secondary lymphoid organs. To promote their trans‐endothelial migration (TEM), chemokine receptors control the activity of RHO family small GTPases in part via GTPase‐activating proteins (GAPs). T and B cells express several RHO‐GAPs, the function of most of which remains unknown. The ARHGAP45 GAP is predominantly expressed in hematopoietic cells. To define its in vivo function, we describe two mouse models where ARHGAP45 is ablated systemically or selectively in T cells. We combine their analysis with affinity purification coupled to mass spectrometry to determine the ARHGAP45 interactome in T cells and with time‐lapse and reflection interference contrast microscopy to assess the role of ARGHAP45 in T‐cell polarization and motility. We demonstrate that ARHGAP45 regulates naïve T‐cell deformability and motility. Under physiological conditions, ARHGAP45 controls the entry of naïve T and B cells into lymph nodes whereas under competitive repopulation it further regulates hematopoietic progenitor cell engraftment in the bone marrow, and T‐cell progenitor thymus seeding. Therefore, the ARGHAP45 GAP controls multiple key steps in the life of T and B cells.
format Online
Article
Text
id pubmed-8024898
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher John Wiley and Sons Inc.
record_format MEDLINE/PubMed
spelling pubmed-80248982021-04-12 ARHGAP45 controls naïve T‐ and B‐cell entry into lymph nodes and T‐cell progenitor thymus seeding He, Le Valignat, Marie‐Pierre Zhang, Lichen Gelard, Lena Zhang, Fanghui Le Guen, Valentin Audebert, Stéphane Camoin, Luc Fossum, Even Bogen, Bjarne Wang, Hui Henri, Sandrine Roncagalli, Romain Theodoly, Olivier Liang, Yinming Malissen, Marie Malissen, Bernard EMBO Rep Articles T and B cells continually recirculate between blood and secondary lymphoid organs. To promote their trans‐endothelial migration (TEM), chemokine receptors control the activity of RHO family small GTPases in part via GTPase‐activating proteins (GAPs). T and B cells express several RHO‐GAPs, the function of most of which remains unknown. The ARHGAP45 GAP is predominantly expressed in hematopoietic cells. To define its in vivo function, we describe two mouse models where ARHGAP45 is ablated systemically or selectively in T cells. We combine their analysis with affinity purification coupled to mass spectrometry to determine the ARHGAP45 interactome in T cells and with time‐lapse and reflection interference contrast microscopy to assess the role of ARGHAP45 in T‐cell polarization and motility. We demonstrate that ARHGAP45 regulates naïve T‐cell deformability and motility. Under physiological conditions, ARHGAP45 controls the entry of naïve T and B cells into lymph nodes whereas under competitive repopulation it further regulates hematopoietic progenitor cell engraftment in the bone marrow, and T‐cell progenitor thymus seeding. Therefore, the ARGHAP45 GAP controls multiple key steps in the life of T and B cells. John Wiley and Sons Inc. 2021-03-15 2021-04-07 /pmc/articles/PMC8024898/ /pubmed/33719206 http://dx.doi.org/10.15252/embr.202052196 Text en © 2021 The Authors. Published under the terms of the CC BY 4.0 license This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Articles
He, Le
Valignat, Marie‐Pierre
Zhang, Lichen
Gelard, Lena
Zhang, Fanghui
Le Guen, Valentin
Audebert, Stéphane
Camoin, Luc
Fossum, Even
Bogen, Bjarne
Wang, Hui
Henri, Sandrine
Roncagalli, Romain
Theodoly, Olivier
Liang, Yinming
Malissen, Marie
Malissen, Bernard
ARHGAP45 controls naïve T‐ and B‐cell entry into lymph nodes and T‐cell progenitor thymus seeding
title ARHGAP45 controls naïve T‐ and B‐cell entry into lymph nodes and T‐cell progenitor thymus seeding
title_full ARHGAP45 controls naïve T‐ and B‐cell entry into lymph nodes and T‐cell progenitor thymus seeding
title_fullStr ARHGAP45 controls naïve T‐ and B‐cell entry into lymph nodes and T‐cell progenitor thymus seeding
title_full_unstemmed ARHGAP45 controls naïve T‐ and B‐cell entry into lymph nodes and T‐cell progenitor thymus seeding
title_short ARHGAP45 controls naïve T‐ and B‐cell entry into lymph nodes and T‐cell progenitor thymus seeding
title_sort arhgap45 controls naïve t‐ and b‐cell entry into lymph nodes and t‐cell progenitor thymus seeding
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8024898/
https://www.ncbi.nlm.nih.gov/pubmed/33719206
http://dx.doi.org/10.15252/embr.202052196
work_keys_str_mv AT hele arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT valignatmariepierre arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT zhanglichen arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT gelardlena arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT zhangfanghui arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT leguenvalentin arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT audebertstephane arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT camoinluc arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT fossumeven arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT bogenbjarne arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT wanghui arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT henrisandrine arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT roncagalliromain arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT theodolyolivier arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT liangyinming arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT malissenmarie arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding
AT malissenbernard arhgap45controlsnaivetandbcellentryintolymphnodesandtcellprogenitorthymusseeding

Ejemplares similares