Author
Listed:
- Bo Zhao
(The Wistar Institute)
- Jianhuang Lin
(The Wistar Institute)
- Lijie Rong
(Columbia University Irving Medical Center)
- Shuai Wu
(The Wistar Institute)
- Zhong Deng
(The Wistar Institute)
- Nail Fatkhutdinov
(The Wistar Institute)
- Joseph Zundell
(The Wistar Institute)
- Takeshi Fukumoto
(The Wistar Institute)
- Qin Liu
(The Wistar Institute)
- Andrew Kossenkov
(The Wistar Institute)
- Stephanie Jean
(Helen F. Graham Cancer Center & Research Institute)
- Mark G. Cadungog
(Helen F. Graham Cancer Center & Research Institute)
- Mark E. Borowsky
(Helen F. Graham Cancer Center & Research Institute)
- Ronny Drapkin
(University of Pennsylvania)
- Paul M. Lieberman
(The Wistar Institute)
- Cory T. Abate-Shen
(Columbia University Irving Medical Center)
- Rugang Zhang
(The Wistar Institute)
Abstract
ARID1A inactivation causes mitotic defects. Paradoxically, cancers with high ARID1A mutation rates typically lack copy number alterations (CNAs). Here, we show that ARID1A inactivation causes defects in telomere cohesion, which selectively eliminates gross chromosome aberrations during mitosis. ARID1A promotes the expression of cohesin subunit STAG1 that is specifically required for telomere cohesion. ARID1A inactivation causes telomere damage that can be rescued by STAG1 expression. Colony formation capability of single cells in G2/M, but not G1 phase, is significantly reduced by ARID1A inactivation. This correlates with an increase in apoptosis and a reduction in tumor growth. Compared with ARID1A wild-type tumors, ARID1A-mutated tumors display significantly less CNAs across multiple cancer types. Together, these results show that ARID1A inactivation is selective against gross chromosome aberrations through causing defects in telomere cohesion, which reconciles the long-standing paradox between the role of ARID1A in maintaining mitotic integrity and the lack of genomic instability in ARID1A-mutated cancers.
Suggested Citation
Bo Zhao & Jianhuang Lin & Lijie Rong & Shuai Wu & Zhong Deng & Nail Fatkhutdinov & Joseph Zundell & Takeshi Fukumoto & Qin Liu & Andrew Kossenkov & Stephanie Jean & Mark G. Cadungog & Mark E. Borowsky, 2019.
"ARID1A promotes genomic stability through protecting telomere cohesion,"
Nature Communications, Nature, vol. 10(1), pages 1-13, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-12037-4
DOI: 10.1038/s41467-019-12037-4
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