Abstract
More than 27 yr ago, the vimentin knockout (Vim−/−) mouse was reported to develop and reproduce without an obvious phenotype, implying that this major cytoskeletal protein was nonessential. Subsequently, comprehensive and careful analyses have revealed numerous phenotypes in Vim−/− mice and their organs, tissues, and cells, frequently reflecting altered responses in the recovery of tissues following various insults or injuries. These findings have been supported by cell-based experiments demonstrating that vimentin intermediate filaments (IFs) play a critical role in regulating cell mechanics and are required to coordinate mechanosensing, transduction, signaling pathways, motility, and inflammatory responses. This review highlights the essential functions of vimentin IFs revealed from studies of Vim−/− mice and cells derived from them.
Funder
National Institutes of Health
-National Institute of General Medical Sciences
NIH-National Heart, Lung, and Blood Institute
NIH-National Institute on Aging
Academy of Finland
Sigrid Jusélius Foundation
Magnus Ehrnrooth Foundation
Endowment of the Åbo Akademi University
oundation “Konung Gustaf V:s och Drottning Victorias Frimurarestiftelse
Swedish Medical Research
Council
ALF
Gothenburg
AFA
Research Foundation
Söderbergs Foundations
Sten A. Olsson Foundation for Research and Culture
Hjärnfonden
Hagströmer's Foundation Millennium
Amlöv's Foundation
E. Jacobson's Donation Fund, VINNOVA
wedish Stroke Foundation
La Caixa Foundation
EU FP 7 Program EduGlia
EU FP 7 Program
TargetBraIn
EU Horizon Europe EJP RD Program ALEXANDER
NIH-NIGMS
Publisher
Cold Spring Harbor Laboratory
Subject
Developmental Biology,Genetics
Cited by
66 articles.
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