Human aneuploid cells depend on the RAF/MEK/ERK pathway for overcoming increased DNA damage

Johanna Zerbib; Marica Rosaria Ippolito; Yonatan Eliezer; Giuseppina De Feudis; Eli Reuveni; Anouk Savir Kadmon; Sara Martin; Sonia Viganò; Gil Leor; James Berstler; Julia Muenzner; Michael Mülleder; Emma M. Campagnolo; Eldad D. Shulman; Tiangen Chang; Carmela Rubolino; Kathrin Laue; Yael Cohen-Sharir; Simone Scorzoni; Silvia Taglietti; Alice Ratti; Chani Stossel; Talia Golan; Francesco Nicassio; Eytan Ruppin; Markus Ralser; Francisca Vazquez; Uri Ben-David; Stefano Santaguida

doi:10.1038/s41467-024-52176-x

Human aneuploid cells depend on the RAF/MEK/ERK pathway for overcoming increased DNA damage

Johanna Zerbib, Marica Rosaria Ippolito, Yonatan Eliezer, Giuseppina De Feudis, Eli Reuveni, Anouk Savir Kadmon, Sara Martin, Sonia Viganò, Gil Leor, James Berstler, Julia Muenzner, Michael Mülleder, Emma M. Campagnolo, Eldad D. Shulman, Tiangen Chang, Carmela Rubolino, Kathrin Laue, Yael Cohen-Sharir, Simone Scorzoni, Silvia TagliettiAlice Ratti, Chani Stossel, Talia Golan, Francesco Nicassio, Eytan Ruppin, Markus Ralser, Francisca Vazquez, Uri Ben-David^*, Stefano Santaguida^*

^*Corresponding author for this work

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

10 Scopus citations

Abstract

Aneuploidy is a hallmark of human cancer, yet the molecular mechanisms to cope with aneuploidy-induced cellular stresses remain largely unknown. Here, we induce chromosome mis-segregation in non-transformed RPE1-hTERT cells and derive multiple stable clones with various degrees of aneuploidy. We perform a systematic genomic, transcriptomic and proteomic profiling of 6 isogenic clones, using whole-exome DNA, mRNA and miRNA sequencing, as well as proteomics. Concomitantly, we functionally interrogate their cellular vulnerabilities, using genome-wide CRISPR/Cas9 and large-scale drug screens. Aneuploid clones activate the DNA damage response and are more resistant to further DNA damage induction. Aneuploid cells also exhibit elevated RAF/MEK/ERK pathway activity and are more sensitive to clinically-relevant drugs targeting this pathway, and in particular to CRAF inhibition. Importantly, CRAF and MEK inhibition sensitize aneuploid cells to DNA damage-inducing chemotherapies and to PARP inhibitors. We validate these results in human cancer cell lines. Moreover, resistance of cancer patients to olaparib is associated with high levels of RAF/MEK/ERK signaling, specifically in highly-aneuploid tumors. Overall, our study provides a comprehensive resource for genetically-matched karyotypically-stable cells of various aneuploidy states, and reveals a therapeutically-relevant cellular dependency of aneuploid cells.

Original language	English
Article number	7772
Journal	Nature Communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-52176-x
State	Published - Dec 2024

Funding

Funders	Funder number
European School of Molecular Medicine
SEMM
Broad Institute
Merck
William Guy Forbeck Research Foundation
Dependency Map Consortium
Haridus- ja Teadusministeerium
Fondazione Cariplo
Ministero della Salute
European Molecular Biology Organization
Center for the Development of Therapeutics and Repurposing Hub
Israel Cancer Research Fund
Azrieli Foundation
Ministero dell’Istruzione, dell’Università e della Ricerca
Bristol-Myers Squibb
Riva Therapeutics
Tel Aviv University
Israeli Ministry for Immigrant Absorption
Bundesministerium für Bildung und Forschung	031L0220
European Research Council	945674, ERC-SyG-2020 951475
Horizon 2020 Framework Programme	951475
Associazione Italiana per la Ricerca sul Cancro	21665, 26738-2021, AIRC-MFAG 2018
Israel Science Foundation	29228, GR-2018-12367077, 1805/21
DoD CDMRP	#CA191148
United States-Israel Binational Science Foundation	2019228
Deutsche Forschungsgemeinschaft	492697668

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Cite this

Zerbib, J., Ippolito, M. R., Eliezer, Y., De Feudis, G., Reuveni, E., Savir Kadmon, A., Martin, S., Viganò, S., Leor, G., Berstler, J., Muenzner, J., Mülleder, M., Campagnolo, E. M., Shulman, E. D., Chang, T., Rubolino, C., Laue, K., Cohen-Sharir, Y., Scorzoni, S., ... Santaguida, S. (2024). Human aneuploid cells depend on the RAF/MEK/ERK pathway for overcoming increased DNA damage. Nature Communications, 15(1), Article 7772. https://doi.org/10.1038/s41467-024-52176-x

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title = "Human aneuploid cells depend on the RAF/MEK/ERK pathway for overcoming increased DNA damage",

abstract = "Aneuploidy is a hallmark of human cancer, yet the molecular mechanisms to cope with aneuploidy-induced cellular stresses remain largely unknown. Here, we induce chromosome mis-segregation in non-transformed RPE1-hTERT cells and derive multiple stable clones with various degrees of aneuploidy. We perform a systematic genomic, transcriptomic and proteomic profiling of 6 isogenic clones, using whole-exome DNA, mRNA and miRNA sequencing, as well as proteomics. Concomitantly, we functionally interrogate their cellular vulnerabilities, using genome-wide CRISPR/Cas9 and large-scale drug screens. Aneuploid clones activate the DNA damage response and are more resistant to further DNA damage induction. Aneuploid cells also exhibit elevated RAF/MEK/ERK pathway activity and are more sensitive to clinically-relevant drugs targeting this pathway, and in particular to CRAF inhibition. Importantly, CRAF and MEK inhibition sensitize aneuploid cells to DNA damage-inducing chemotherapies and to PARP inhibitors. We validate these results in human cancer cell lines. Moreover, resistance of cancer patients to olaparib is associated with high levels of RAF/MEK/ERK signaling, specifically in highly-aneuploid tumors. Overall, our study provides a comprehensive resource for genetically-matched karyotypically-stable cells of various aneuploidy states, and reveals a therapeutically-relevant cellular dependency of aneuploid cells.",

author = "Johanna Zerbib and Ippolito, {Marica Rosaria} and Yonatan Eliezer and {De Feudis}, Giuseppina and Eli Reuveni and {Savir Kadmon}, Anouk and Sara Martin and Sonia Vigan{\`o} and Gil Leor and James Berstler and Julia Muenzner and Michael M{\"u}lleder and Campagnolo, {Emma M.} and Shulman, {Eldad D.} and Tiangen Chang and Carmela Rubolino and Kathrin Laue and Yael Cohen-Sharir and Simone Scorzoni and Silvia Taglietti and Alice Ratti and Chani Stossel and Talia Golan and Francesco Nicassio and Eytan Ruppin and Markus Ralser and Francisca Vazquez and Uri Ben-David and Stefano Santaguida",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1038/s41467-024-52176-x",

language = "אנגלית",

volume = "15",

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Zerbib, J, Ippolito, MR, Eliezer, Y, De Feudis, G, Reuveni, E, Savir Kadmon, A, Martin, S, Viganò, S, Leor, G, Berstler, J, Muenzner, J, Mülleder, M, Campagnolo, EM, Shulman, ED, Chang, T, Rubolino, C, Laue, K, Cohen-Sharir, Y, Scorzoni, S, Taglietti, S, Ratti, A, Stossel, C, Golan, T, Nicassio, F, Ruppin, E, Ralser, M, Vazquez, F, Ben-David, U & Santaguida, S 2024, 'Human aneuploid cells depend on the RAF/MEK/ERK pathway for overcoming increased DNA damage', Nature Communications, vol. 15, no. 1, 7772. https://doi.org/10.1038/s41467-024-52176-x

TY - JOUR

T1 - Human aneuploid cells depend on the RAF/MEK/ERK pathway for overcoming increased DNA damage

AU - Zerbib, Johanna

AU - Ippolito, Marica Rosaria

AU - Eliezer, Yonatan

AU - De Feudis, Giuseppina

AU - Reuveni, Eli

AU - Savir Kadmon, Anouk

AU - Martin, Sara

AU - Viganò, Sonia

AU - Leor, Gil

AU - Berstler, James

AU - Muenzner, Julia

AU - Mülleder, Michael

AU - Campagnolo, Emma M.

AU - Shulman, Eldad D.

AU - Chang, Tiangen

AU - Rubolino, Carmela

AU - Laue, Kathrin

AU - Cohen-Sharir, Yael

AU - Scorzoni, Simone

AU - Taglietti, Silvia

AU - Ratti, Alice

AU - Stossel, Chani

AU - Golan, Talia

AU - Nicassio, Francesco

AU - Ruppin, Eytan

AU - Ralser, Markus

AU - Vazquez, Francisca

AU - Ben-David, Uri

AU - Santaguida, Stefano

PY - 2024/12

Y1 - 2024/12

N2 - Aneuploidy is a hallmark of human cancer, yet the molecular mechanisms to cope with aneuploidy-induced cellular stresses remain largely unknown. Here, we induce chromosome mis-segregation in non-transformed RPE1-hTERT cells and derive multiple stable clones with various degrees of aneuploidy. We perform a systematic genomic, transcriptomic and proteomic profiling of 6 isogenic clones, using whole-exome DNA, mRNA and miRNA sequencing, as well as proteomics. Concomitantly, we functionally interrogate their cellular vulnerabilities, using genome-wide CRISPR/Cas9 and large-scale drug screens. Aneuploid clones activate the DNA damage response and are more resistant to further DNA damage induction. Aneuploid cells also exhibit elevated RAF/MEK/ERK pathway activity and are more sensitive to clinically-relevant drugs targeting this pathway, and in particular to CRAF inhibition. Importantly, CRAF and MEK inhibition sensitize aneuploid cells to DNA damage-inducing chemotherapies and to PARP inhibitors. We validate these results in human cancer cell lines. Moreover, resistance of cancer patients to olaparib is associated with high levels of RAF/MEK/ERK signaling, specifically in highly-aneuploid tumors. Overall, our study provides a comprehensive resource for genetically-matched karyotypically-stable cells of various aneuploidy states, and reveals a therapeutically-relevant cellular dependency of aneuploid cells.

AB - Aneuploidy is a hallmark of human cancer, yet the molecular mechanisms to cope with aneuploidy-induced cellular stresses remain largely unknown. Here, we induce chromosome mis-segregation in non-transformed RPE1-hTERT cells and derive multiple stable clones with various degrees of aneuploidy. We perform a systematic genomic, transcriptomic and proteomic profiling of 6 isogenic clones, using whole-exome DNA, mRNA and miRNA sequencing, as well as proteomics. Concomitantly, we functionally interrogate their cellular vulnerabilities, using genome-wide CRISPR/Cas9 and large-scale drug screens. Aneuploid clones activate the DNA damage response and are more resistant to further DNA damage induction. Aneuploid cells also exhibit elevated RAF/MEK/ERK pathway activity and are more sensitive to clinically-relevant drugs targeting this pathway, and in particular to CRAF inhibition. Importantly, CRAF and MEK inhibition sensitize aneuploid cells to DNA damage-inducing chemotherapies and to PARP inhibitors. We validate these results in human cancer cell lines. Moreover, resistance of cancer patients to olaparib is associated with high levels of RAF/MEK/ERK signaling, specifically in highly-aneuploid tumors. Overall, our study provides a comprehensive resource for genetically-matched karyotypically-stable cells of various aneuploidy states, and reveals a therapeutically-relevant cellular dependency of aneuploid cells.

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Human aneuploid cells depend on the RAF/MEK/ERK pathway for overcoming increased DNA damage

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UN SDGs

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