Cohesin mutations are synthetic lethal with stimulation of WNT signaling

Chue Vin Chin; Jisha Antony; Sarada Ketharnathan; Anastasia Labudina; Gregory Gimenez; Kate M. Parsons; Jinshu He; Amee J. George; Maria Michela Pallotta; Antonio Musio; Antony Braithwaite; Parry Guilford; Ross D. Hannan; Julia A. Horsfield

doi:10.7554/ELIFE.61405

Cohesin mutations are synthetic lethal with stimulation of WNT signaling

Chue Vin Chin, Jisha Antony, Sarada Ketharnathan, Anastasia Labudina, Gregory Gimenez, Kate M. Parsons, Jinshu He, Amee J. George, Maria Michela Pallotta, Antonio Musio, Antony Braithwaite, Parry Guilford, Ross D. Hannan, Julia A. Horsfield^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

Mutations in genes encoding subunits of the cohesin complex are common in several cancers, but may also expose druggable vulnerabilities. We generated isogenic MCF10A cell lines with deletion mutations of genes encoding cohesin subunits SMC3, RAD21, and STAG2 and screened for synthetic lethality with 3009 FDA-approved compounds. The screen identified several compounds that interfere with transcription, DNA damage repair and the cell cycle. Unexpectedly, one of the top ‘hits’ was a GSK3 inhibitor, an agonist of Wnt signaling. We show that sensitivity to GSK3 inhibition is likely due to stabilization of b-catenin in cohesin-mutant cells, and that Wnt- responsive gene expression is highly sensitized in STAG2-mutant CMK leukemia cells. Moreover, Wnt activity is enhanced in zebrafish mutant for cohesin subunits stag2b and rad21. Our results suggest that cohesin mutations could progress oncogenesis by enhancing Wnt signaling, and that targeting the Wnt pathway may represent a novel therapeutic strategy for cohesin-mutant cancers.

Original language	English
Article number	e61405
Pages (from-to)	1-21
Number of pages	21
Journal	eLife
Volume	9
DOIs	https://doi.org/10.7554/ELIFE.61405
Publication status	Published - Dec 2020

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@article{6823a863f927422e9eed59c395a8d91b,

title = "Cohesin mutations are synthetic lethal with stimulation of WNT signaling",

abstract = "Mutations in genes encoding subunits of the cohesin complex are common in several cancers, but may also expose druggable vulnerabilities. We generated isogenic MCF10A cell lines with deletion mutations of genes encoding cohesin subunits SMC3, RAD21, and STAG2 and screened for synthetic lethality with 3009 FDA-approved compounds. The screen identified several compounds that interfere with transcription, DNA damage repair and the cell cycle. Unexpectedly, one of the top {\textquoteleft}hits{\textquoteright} was a GSK3 inhibitor, an agonist of Wnt signaling. We show that sensitivity to GSK3 inhibition is likely due to stabilization of b-catenin in cohesin-mutant cells, and that Wnt- responsive gene expression is highly sensitized in STAG2-mutant CMK leukemia cells. Moreover, Wnt activity is enhanced in zebrafish mutant for cohesin subunits stag2b and rad21. Our results suggest that cohesin mutations could progress oncogenesis by enhancing Wnt signaling, and that targeting the Wnt pathway may represent a novel therapeutic strategy for cohesin-mutant cancers.",

author = "Chin, {Chue Vin} and Jisha Antony and Sarada Ketharnathan and Anastasia Labudina and Gregory Gimenez and Parsons, {Kate M.} and Jinshu He and George, {Amee J.} and Pallotta, {Maria Michela} and Antonio Musio and Antony Braithwaite and Parry Guilford and Hannan, {Ross D.} and Horsfield, {Julia A.}",

note = "Publisher Copyright: {\textcopyright} Chin et al.",

year = "2020",

month = dec,

doi = "10.7554/ELIFE.61405",

language = "English",

volume = "9",

pages = "1--21",

journal = "eLife",

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T1 - Cohesin mutations are synthetic lethal with stimulation of WNT signaling

AU - Chin, Chue Vin

AU - Antony, Jisha

AU - Ketharnathan, Sarada

AU - Labudina, Anastasia

AU - Gimenez, Gregory

AU - Parsons, Kate M.

AU - He, Jinshu

AU - George, Amee J.

AU - Pallotta, Maria Michela

AU - Musio, Antonio

AU - Braithwaite, Antony

AU - Guilford, Parry

AU - Hannan, Ross D.

AU - Horsfield, Julia A.

PY - 2020/12

Y1 - 2020/12

N2 - Mutations in genes encoding subunits of the cohesin complex are common in several cancers, but may also expose druggable vulnerabilities. We generated isogenic MCF10A cell lines with deletion mutations of genes encoding cohesin subunits SMC3, RAD21, and STAG2 and screened for synthetic lethality with 3009 FDA-approved compounds. The screen identified several compounds that interfere with transcription, DNA damage repair and the cell cycle. Unexpectedly, one of the top ‘hits’ was a GSK3 inhibitor, an agonist of Wnt signaling. We show that sensitivity to GSK3 inhibition is likely due to stabilization of b-catenin in cohesin-mutant cells, and that Wnt- responsive gene expression is highly sensitized in STAG2-mutant CMK leukemia cells. Moreover, Wnt activity is enhanced in zebrafish mutant for cohesin subunits stag2b and rad21. Our results suggest that cohesin mutations could progress oncogenesis by enhancing Wnt signaling, and that targeting the Wnt pathway may represent a novel therapeutic strategy for cohesin-mutant cancers.

AB - Mutations in genes encoding subunits of the cohesin complex are common in several cancers, but may also expose druggable vulnerabilities. We generated isogenic MCF10A cell lines with deletion mutations of genes encoding cohesin subunits SMC3, RAD21, and STAG2 and screened for synthetic lethality with 3009 FDA-approved compounds. The screen identified several compounds that interfere with transcription, DNA damage repair and the cell cycle. Unexpectedly, one of the top ‘hits’ was a GSK3 inhibitor, an agonist of Wnt signaling. We show that sensitivity to GSK3 inhibition is likely due to stabilization of b-catenin in cohesin-mutant cells, and that Wnt- responsive gene expression is highly sensitized in STAG2-mutant CMK leukemia cells. Moreover, Wnt activity is enhanced in zebrafish mutant for cohesin subunits stag2b and rad21. Our results suggest that cohesin mutations could progress oncogenesis by enhancing Wnt signaling, and that targeting the Wnt pathway may represent a novel therapeutic strategy for cohesin-mutant cancers.

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VL - 9

SP - 1

EP - 21

JO - eLife

JF - eLife

M1 - e61405

ER -

Cohesin mutations are synthetic lethal with stimulation of WNT signaling

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