ATR is essential for preservation of cell mechanics and nuclear integrity during interstitial migration-Reference-Cited by-同舟云学术

ATR is essential for preservation of cell mechanics and nuclear integrity during interstitial migration

Published:2020-09-24 Issue:1 Volume:11 Page:
ISSN:2041-1723
Container-title:Nature Communications
language:en
Short-container-title:Nat Commun

Author:

Kidiyoor Gururaj Rao^ORCID,Li Qingsen,Bastianello Giulia,Bruhn Christopher^ORCID,Giovannetti Irene,Mohamood Adhil,Beznoussenko Galina V.,Mironov Alexandre,Raab Matthew,Piel Matthieu^ORCID,Restuccia Umberto,Matafora Vittoria,Bachi Angela^ORCID,Barozzi Sara,Parazzoli Dario^ORCID,Frittoli Emanuela,Palamidessi Andrea^ORCID,Panciera Tito,Piccolo Stefano,Scita Giorgio^ORCID,Maiuri Paolo^ORCID,Havas Kristina M.,Zhou Zhong-Wei,Kumar Amit^ORCID,Bartek Jiri,Wang Zhao-Qi,Foiani Marco^ORCID

Abstract

AbstractATR responds to mechanical stress at the nuclear envelope and mediates envelope-associated repair of aberrant topological DNA states. By combining microscopy, electron microscopic analysis, biophysical and in vivo models, we report that ATR-defective cells exhibit altered nuclear plasticity and YAP delocalization. When subjected to mechanical stress or undergoing interstitial migration, ATR-defective nuclei collapse accumulating nuclear envelope ruptures and perinuclear cGAS, which indicate loss of nuclear envelope integrity, and aberrant perinuclear chromatin status. ATR-defective cells also are defective in neuronal migration during development and in metastatic dissemination from circulating tumor cells. Our findings indicate that ATR ensures mechanical coupling of the cytoskeleton to the nuclear envelope and accompanying regulation of envelope-chromosome association. Thus the repertoire of ATR-regulated biological processes extends well beyond its canonical role in triggering biochemical implementation of the DNA damage response.

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry

Link

https://www.nature.com/articles/s41467-020-18580-9.pdf

Reference70 articles.

1. Cho, S., Irianto, J. & Discher, D. E. Mechanosensing by the nucleus: from pathways to scaling relationships. J. Cell Biol. 216, 305–315 (2017).

2. Kirby, T. J. & Lammerding, J. Emerging views of the nucleus as a cellular mechanosensor. Nat. Cell Biol. 20, 373–381 (2018).

3. Branzei, D. & Foiani, M. Regulation of DNA repair throughout the cell cycle. Nat. Rev. Mol. Cell Biol. 9, 297–308 (2008).

4. Matsuoka, S. et al. ATM and ATR substrate analysis reveals extensive protein networks responsive to DNA damage. Science 316, 1160–1166 (2007).

5. O’Driscoll, M., Ruiz-Perez, V. L., Woods, C. G., Jeggo, P. A. & Goodship, J. A. A splicing mutation affecting expression of ataxia-telangiectasia and Rad3-related protein (ATR) results in Seckel syndrome. Nat. Genet. 33, 497–501 (2003).

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