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Plectin-mediated cytoskeletal crosstalk controls cell tension and cohesion in epithelial sheets
M. Prechova, Z. Adamova, AL. Schweizer, M. Maninova, A. Bauer, D. Kah, SM. Meier-Menches, G. Wiche, B. Fabry, M. Gregor
Jazyk angličtina Země Spojené státy americké
Typ dokumentu časopisecké články, práce podpořená grantem
NLK
Free Medical Journals
od 1962 do Před 6 měsíci
Freely Accessible Science Journals
od 1962 do Před 6 měsíci
Europe PubMed Central
od 1962 do Před 6 měsíci
Open Access Digital Library
od 1955-01-25
Open Access Digital Library
od 1959-01-01
Open Access Digital Library
od 1962-01-01
PubMed
35139142
DOI
10.1083/jcb.202105146
Knihovny.cz E-zdroje
- MeSH
- aktiny metabolismus MeSH
- biomechanika MeSH
- buňky MDCK MeSH
- cytoskelet metabolismus ultrastruktura MeSH
- desmozomy metabolismus ultrastruktura MeSH
- epitelové buňky metabolismus ultrastruktura MeSH
- genový knockout MeSH
- keratiny metabolismus MeSH
- lidé MeSH
- MFC-7 buňky MeSH
- myši MeSH
- pevnost v tahu MeSH
- plektin metabolismus MeSH
- protein - isoformy metabolismus MeSH
- psi MeSH
- zvířata MeSH
- Check Tag
- lidé MeSH
- myši MeSH
- psi MeSH
- zvířata MeSH
- Publikační typ
- časopisecké články MeSH
- práce podpořená grantem MeSH
The coordinated interplay of cytoskeletal networks critically determines tissue biomechanics and structural integrity. Here, we show that plectin, a major intermediate filament-based cytolinker protein, orchestrates cortical cytoskeletal networks in epithelial sheets to support intercellular junctions. By combining CRISPR/Cas9-based gene editing and pharmacological inhibition, we demonstrate that in an F-actin-dependent context, plectin is essential for the formation of the circumferential keratin rim, organization of radial keratin spokes, and desmosomal patterning. In the absence of plectin-mediated cytoskeletal cross-linking, the aberrant keratin-desmosome (DSM)-network feeds back to the actin cytoskeleton, which results in elevated actomyosin contractility. Also, by complementing a predictive mechanical model with Förster resonance energy transfer-based tension sensors, we provide evidence that in the absence of cytoskeletal cross-linking, major intercellular junctions (adherens junctions and DSMs) are under intrinsically generated tensile stress. Defective cytoarchitecture and tensional disequilibrium result in reduced intercellular cohesion, associated with general destabilization of plectin-deficient sheets upon mechanical stress.
Department of Analytical Chemistry University of Vienna Vienna Austria
Department of Biochemistry and Cell Biology Max Perutz Labs University of Vienna Vienna Austria
Department of Physics University of Erlangen Nuremberg Erlangen Germany
Department of Physiology Faculty of Science Charles University Prague Czech Republic
Citace poskytuje Crossref.org
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