Competition for endothelial cell polarity drives vascular morphogenesis

Pedro Barbacena; Maria Dominguez-Cejudo; Catarina G. Fonseca; Manuel Gómez-González; Laura M. Faure; Georgia Zarkada; Andreia A. Pena; Anna Pezzarossa; Daniela Ramalho; Ylenia Giarratano; Marie Ouarné; David Barata; Isabela Fortunato; Lenka H. Misiková; Ian Mauldin; Yulia Carvalho; Xavier Trepat; Pere Roca-Cusachs; Anne Eichmann; Miguel O. Bernabeu; Cláudio A. Franco

doi:10.1101/2021.11.23.469704

Competition for endothelial cell polarity drives vascular morphogenesis

Pedro Barbacena, Maria Dominguez-Cejudo, Catarina G. Fonseca, Manuel Gómez-González, Laura M. Faure, Georgia Zarkada, Andreia A. Pena, Anna Pezzarossa, Daniela Ramalho, Ylenia Giarratano, Marie Ouarné, David Barata, Isabela Fortunato, Lenka H. Misiková, Ian Mauldin, Yulia Carvalho, Xavier Trepat, Pere Roca-Cusachs, Anne Eichmann, Miguel O. BernabeuCláudio A. Franco^*

^*Autor correspondente para este trabalho

Resultado de pesquisa: ???researchoutput.researchoutputtypes.workingpaper.preprint???

7 Transferências (Pure)

Resumo

Blood vessel formation generates unique vascular patterns in each individual. The principles governing the apparent stochasticity of this process remain to be elucidated. Using mathematical methods, we find that the transition between two fundamental vascular morphogenetic programs – sprouting angiogenesis and vascular remodeling – is established by a shift on collective front-rear polarity of endothelial cells. We demonstrate that the competition between biochemical (VEGFA) and mechanical (blood flow-induced shear stress) cues controls this collective polarity shift. Shear stress increases tension at focal adhesions overriding VEGFA-driven collective polarization, which relies on tension at adherens junctions. We propose that vascular morphogenetic cues compete to regulate individual cell polarity and migration through tension shifts that translates into tissue-level emergent behaviors, ultimately leading to uniquely organized vascular patterns.

Idioma original	English
Editora	bioRxiv
Número de páginas	32
DOIs	https://doi.org/10.1101/2021.11.23.469704
Estado da publicação	Publicado - 23 nov. 2021
Publicado externamente	Sim

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76563973Submitted manuscript, 16,4 MBLicença:

1 Article

Competition for endothelial cell polarity drives vascular morphogenesis in the mouse retina
Barbacena, P., Dominguez-Cejudo, M., Fonseca, C. G., Gómez-González, M., Faure, L. M., Zarkada, G., Pena, A., Pezzarossa, A., Ramalho, D., Giarratano, Y., Ouarné, M., Barata, D., Fortunato, I. C., Misikova, L. H., Mauldin, I., Carvalho, Y., Trepat, X., Roca-Cusachs, P., Eichmann, A. & Bernabeu, M. O. e 1 outros, Franco, C. A., 10 out. 2022, Em: Developmental Cell. 57, 19, p. 2321–2333 23 p.
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51 Transferências (Pure)

Citação

Barbacena, P., Dominguez-Cejudo, M., Fonseca, C. G., Gómez-González, M., Faure, L. M., Zarkada, G., Pena, A. A., Pezzarossa, A., Ramalho, D., Giarratano, Y., Ouarné, M., Barata, D., Fortunato, I., Misiková, L. H., Mauldin, I., Carvalho, Y., Trepat, X., Roca-Cusachs, P., Eichmann, A., ... Franco, C. A. (2021). Competition for endothelial cell polarity drives vascular morphogenesis. bioRxiv. https://doi.org/10.1101/2021.11.23.469704

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title = "Competition for endothelial cell polarity drives vascular morphogenesis",

abstract = "Blood vessel formation generates unique vascular patterns in each individual. The principles governing the apparent stochasticity of this process remain to be elucidated. Using mathematical methods, we find that the transition between two fundamental vascular morphogenetic programs – sprouting angiogenesis and vascular remodeling – is established by a shift on collective front-rear polarity of endothelial cells. We demonstrate that the competition between biochemical (VEGFA) and mechanical (blood flow-induced shear stress) cues controls this collective polarity shift. Shear stress increases tension at focal adhesions overriding VEGFA-driven collective polarization, which relies on tension at adherens junctions. We propose that vascular morphogenetic cues compete to regulate individual cell polarity and migration through tension shifts that translates into tissue-level emergent behaviors, ultimately leading to uniquely organized vascular patterns.",

author = "Pedro Barbacena and Maria Dominguez-Cejudo and Fonseca, {Catarina G.} and Manuel G{\'o}mez-Gonz{\'a}lez and Faure, {Laura M.} and Georgia Zarkada and Pena, {Andreia A.} and Anna Pezzarossa and Daniela Ramalho and Ylenia Giarratano and Marie Ouarn{\'e} and David Barata and Isabela Fortunato and Misikov{\'a}, {Lenka H.} and Ian Mauldin and Yulia Carvalho and Xavier Trepat and Pere Roca-Cusachs and Anne Eichmann and Bernabeu, {Miguel O.} and Franco, {Cl{\'a}udio A.}",

year = "2021",

month = nov,

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doi = "10.1101/2021.11.23.469704",

language = "English",

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Barbacena, P, Dominguez-Cejudo, M, Fonseca, CG, Gómez-González, M, Faure, LM, Zarkada, G, Pena, AA, Pezzarossa, A, Ramalho, D, Giarratano, Y, Ouarné, M, Barata, D, Fortunato, I, Misiková, LH, Mauldin, I, Carvalho, Y, Trepat, X, Roca-Cusachs, P, Eichmann, A, Bernabeu, MO & Franco, CA 2021 'Competition for endothelial cell polarity drives vascular morphogenesis' bioRxiv. https://doi.org/10.1101/2021.11.23.469704

TY - UNPB

T1 - Competition for endothelial cell polarity drives vascular morphogenesis

AU - Barbacena, Pedro

AU - Dominguez-Cejudo, Maria

AU - Fonseca, Catarina G.

AU - Gómez-González, Manuel

AU - Faure, Laura M.

AU - Zarkada, Georgia

AU - Pena, Andreia A.

AU - Pezzarossa, Anna

AU - Ramalho, Daniela

AU - Giarratano, Ylenia

AU - Ouarné, Marie

AU - Barata, David

AU - Fortunato, Isabela

AU - Misiková, Lenka H.

AU - Mauldin, Ian

AU - Carvalho, Yulia

AU - Trepat, Xavier

AU - Roca-Cusachs, Pere

AU - Eichmann, Anne

AU - Bernabeu, Miguel O.

AU - Franco, Cláudio A.

PY - 2021/11/23

Y1 - 2021/11/23

N2 - Blood vessel formation generates unique vascular patterns in each individual. The principles governing the apparent stochasticity of this process remain to be elucidated. Using mathematical methods, we find that the transition between two fundamental vascular morphogenetic programs – sprouting angiogenesis and vascular remodeling – is established by a shift on collective front-rear polarity of endothelial cells. We demonstrate that the competition between biochemical (VEGFA) and mechanical (blood flow-induced shear stress) cues controls this collective polarity shift. Shear stress increases tension at focal adhesions overriding VEGFA-driven collective polarization, which relies on tension at adherens junctions. We propose that vascular morphogenetic cues compete to regulate individual cell polarity and migration through tension shifts that translates into tissue-level emergent behaviors, ultimately leading to uniquely organized vascular patterns.

AB - Blood vessel formation generates unique vascular patterns in each individual. The principles governing the apparent stochasticity of this process remain to be elucidated. Using mathematical methods, we find that the transition between two fundamental vascular morphogenetic programs – sprouting angiogenesis and vascular remodeling – is established by a shift on collective front-rear polarity of endothelial cells. We demonstrate that the competition between biochemical (VEGFA) and mechanical (blood flow-induced shear stress) cues controls this collective polarity shift. Shear stress increases tension at focal adhesions overriding VEGFA-driven collective polarization, which relies on tension at adherens junctions. We propose that vascular morphogenetic cues compete to regulate individual cell polarity and migration through tension shifts that translates into tissue-level emergent behaviors, ultimately leading to uniquely organized vascular patterns.

U2 - 10.1101/2021.11.23.469704

DO - 10.1101/2021.11.23.469704

M3 - Preprint

BT - Competition for endothelial cell polarity drives vascular morphogenesis

PB - bioRxiv

ER -

Competition for endothelial cell polarity drives vascular morphogenesis

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Resultado de pesquisa

Competition for endothelial cell polarity drives vascular morphogenesis in the mouse retina

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