Summary of ssbd-repos-00084

SSBD:database
URL

Name
ssbd-repos-00084 (84-Ito-CellDyn)
URL
DOI
-

Title
Timelapse images of different types HT29 cells during nocodazole treatment
Description
-
Submited Date
-
Release Date
2018-11-14
Updated Date
-
License
Funding information
-
File formats
Data size
638.0 MB

Organism
H. sapiens
Strain
HT29
Cell Line
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Genes
-
Proteins
MLC2

GO Molecular Function (MF)
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GO Biological Process (BP)
NA
GO Cellular Component (CC)
apical junction complex
Study Type
-
Imaging Methods
-

Method Summary
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Related paper(s)

Shoko Ito, Satoru Okuda, Masako Abe, Mari Fujimoto, Tetsuo Onuki, Tamako Nishimura, Masatoshi Takeichi (2017) Induced cortical tension restores functional junctions in adhesion-defective carcinoma cells., Nature communications, Volume 8, Number 1, pp. 1834

Published in 2017 Nov 28 (Electronic publication in Nov. 28, 2017, midnight )

(Abstract) Normal epithelial cells are stably connected to each other via the apical junctional complex (AJC). AJCs, however, tend to be disrupted during tumor progression, and this process is implicated in cancer dissemination. Here, using colon carcinoma cells that fail to form AJCs, we investigated molecular defects behind this failure through a search for chemical compounds that could restore AJCs, and found that microtubule-polymerization inhibitors (MTIs) were effective. MTIs activated GEF-H1/RhoA signaling, causing actomyosin contraction at the apical cortex. This contraction transmitted force to the cadherin-catenin complex, resulting in a mechanosensitive recruitment of vinculin to cell junctions. This process, in turn, recruited PDZ-RhoGEF to the junctions, leading to the RhoA/ROCK/LIM kinase/cofilin-dependent stabilization of the junctions. RhoGAP depletion mimicked these MTI-mediated processes. Cells that normally organize AJCs did not show such MTI/RhoA sensitivity. Thus, advanced carcinoma cells require elevated RhoA activity for establishing robust junctions, which triggers tension-sensitive reorganization of actin/adhesion regulators.
(MeSH Terms)

Contact(s)
Masatoshi Takeichi
Organization(s)
RIKEN , Center for Biosystems Dynamics Research , Laboratory for Cell Adhesion and Tissue Patterning
Image Data Contributors
Quantitative Data Contributors

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