Time course of actin cytoskeleton stiffness and matrix adhesion molecules in human bronchial epithelial cell cultures

Human bronchial epithelial (HBE) cells adhere to underlying extracellular matrix (ECM) via integrin-type transmembrane receptors. Integrins link the ECM to the cytoskeleton (CSK), establishing a mechanical continuum by which forces are transmitted between the outside and the inside of the cells. The...

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Published in:Experimental cell research 2003-07, Vol.287 (2), p.199-208
Main Authors: Doornaert, Blandine, Leblond, Valérie, Planus, Emmanuelle, Galiacy, Stéphane, Laurent, Valérie M, Gras, Gabriel, Isabey, Daniel, Lafuma, Chantal
Format: Article
Language:English
Subjects:
Actin
Actins - metabolism
Bronchi - cytology
Bronchi - metabolism
Cadherins - metabolism
Cell Adhesion Molecules - metabolism
Cell Division
Cell Line
Cytoskeleton - metabolism
Cytoskeleton stiffness
Epithelial Cells - metabolism
Epithelial Cells - ultrastructure
Extracellular matrix
Extracellular Matrix - metabolism
Human bronchial epithelial cells
Humans
Integrin
Time Factors
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container_end_page 208
container_issue 2
container_start_page 199
container_title Experimental cell research
container_volume 287
creator Doornaert, Blandine
Leblond, Valérie
Planus, Emmanuelle
Galiacy, Stéphane
Laurent, Valérie M
Gras, Gabriel
Isabey, Daniel
Lafuma, Chantal
description Human bronchial epithelial (HBE) cells adhere to underlying extracellular matrix (ECM) via integrin-type transmembrane receptors. Integrins link the ECM to the cytoskeleton (CSK), establishing a mechanical continuum by which forces are transmitted between the outside and the inside of the cells. The present study investigates the time course of global and actin CSK stiffness of HBE cells (16HBE14o-) growing on various matrix substrates as a function of culture time until confluence, and the concomitant time course of F-actin and adhesion molecule distribution. Our results showed a progressive increase in actin CSK stiffness from cell seeding to confluence, related to acquisition of highly polymerized cortical and cytosolic F-actin organization and up-regulation of certain matrix ligands, such as β1-, α5-, and αv-integrin subunit expression. Moreover, compared to fibrillar type I collagen, reticular type IV collagen used as matrix substrate, appeared to amplify actin CSK stiffness of HBE confluent cells probably in relation to up-regulation of α3-integrin subunit. Taken together, these results support the concept of a close interaction among actin CSK stiffness, structural actin organization, specific integrin molecule involvement, cell spreading, and extracellular matrix.
doi_str_mv 10.1016/S0014-4827(03)00114-9
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subjects Actin
Actins - metabolism
Bronchi - cytology
Bronchi - metabolism
Cadherins - metabolism
Cell Adhesion Molecules - metabolism
Cell Division
Cell Line
Cytoskeleton - metabolism
Cytoskeleton stiffness
Epithelial Cells - metabolism
Epithelial Cells - ultrastructure
Extracellular matrix
Extracellular Matrix - metabolism
Human bronchial epithelial cells
Humans
Integrin
Time Factors
title Time course of actin cytoskeleton stiffness and matrix adhesion molecules in human bronchial epithelial cell cultures
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