Genome-scale functional genomics identify genes preferentially essential for multiple myeloma cells compared to other neoplasias

Ricardo de Matos Simoes; Ryosuke Shirasaki; Sondra L. Downey-Kopyscinski; Geoffrey M. Matthews; Benjamin G. Barwick; Vikas A. Gupta; Daphné Dupéré-Richer; Shizuka Yamano; Yiguo Hu; Michal Sheffer; Eugen Dhimolea; Olga Dashevsky; Sara Gandolfi; Kazuya Ishiguro; Robin M. Meyers; Jordan G. Bryan; Neekesh V. Dharia; Paul J. Hengeveld; Johanna B. Brüggenthies; Huihui Tang; Andrew J. Aguirre; Quinlan L. Sievers; Benjamin L. Ebert; Brian J. Glassner; Christopher J. Ott; James E. Bradner; Nicholas P. Kwiatkowski; Daniel Auclair; Joan Levy; Jonathan J. Keats; Richard W.J. Groen; Nathanael S. Gray; Aedin C. Culhane; James M. McFarland; Joshua M. Dempster; Jonathan D. Licht; Lawrence H. Boise; William C. Hahn; Francisca Vazquez; Aviad Tsherniak; Constantine S. Mitsiades

doi:10.1038/s43018-023-00550-x

Genome-scale functional genomics identify genes preferentially essential for multiple myeloma cells compared to other neoplasias

Ricardo de Matos Simoes, Ryosuke Shirasaki, Sondra L. Downey-Kopyscinski, Geoffrey M. Matthews, Benjamin G. Barwick, Vikas A. Gupta, Daphné Dupéré-Richer, Shizuka Yamano, Yiguo Hu, Michal Sheffer, Eugen Dhimolea, Olga Dashevsky, Sara Gandolfi, Kazuya Ishiguro, Robin M. Meyers, Jordan G. Bryan, Neekesh V. Dharia, Paul J. Hengeveld, Johanna B. Brüggenthies, Huihui TangAndrew J. Aguirre, Quinlan L. Sievers, Benjamin L. Ebert, Brian J. Glassner, Christopher J. Ott, James E. Bradner, Nicholas P. Kwiatkowski, Daniel Auclair, Joan Levy, Jonathan J. Keats, Richard W.J. Groen, Nathanael S. Gray, Aedin C. Culhane, James M. McFarland, Joshua M. Dempster, Jonathan D. Licht, Lawrence H. Boise, William C. Hahn, Francisca Vazquez, Aviad Tsherniak, Constantine S. Mitsiades

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

4 Scopus citations

Abstract

Clinical progress in multiple myeloma (MM), an incurable plasma cell (PC) neoplasia, has been driven by therapies that have limited applications beyond MM/PC neoplasias and do not target specific oncogenic mutations in MM. Instead, these agents target pathways critical for PC biology yet largely dispensable for malignant or normal cells of most other lineages. Here we systematically characterized the lineage-preferential molecular dependencies of MM through genome-scale clustered regularly interspaced short palindromic repeats (CRISPR) studies in 19 MM versus hundreds of non-MM lines and identified 116 genes whose disruption more significantly affects MM cell fitness compared with other malignancies. These genes, some known, others not previously linked to MM, encode transcription factors, chromatin modifiers, endoplasmic reticulum components, metabolic regulators or signaling molecules. Most of these genes are not among the top amplified, overexpressed or mutated in MM. Functional genomics approaches thus define new therapeutic targets in MM not readily identifiable by standard genomic, transcriptional or epigenetic profiling analyses.

Original language	English (US)
Pages (from-to)	754-773
Number of pages	20
Journal	Nature Cancer
Volume	4
Issue number	5
DOIs	https://doi.org/10.1038/s43018-023-00550-x
State	Published - May 2023
Externally published	Yes

ASJC Scopus subject areas

Oncology
Cancer Research

UN SDGs

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

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10.1038/s43018-023-00550-x

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de Matos Simoes, R., Shirasaki, R., Downey-Kopyscinski, S. L., Matthews, G. M., Barwick, B. G., Gupta, V. A., Dupéré-Richer, D., Yamano, S., Hu, Y., Sheffer, M., Dhimolea, E., Dashevsky, O., Gandolfi, S., Ishiguro, K., Meyers, R. M., Bryan, J. G., Dharia, N. V., Hengeveld, P. J., Brüggenthies, J. B., ... Mitsiades, C. S. (2023). Genome-scale functional genomics identify genes preferentially essential for multiple myeloma cells compared to other neoplasias. Nature Cancer, 4(5), 754-773. https://doi.org/10.1038/s43018-023-00550-x

de Matos Simoes, R, Shirasaki, R, Downey-Kopyscinski, SL, Matthews, GM, Barwick, BG, Gupta, VA, Dupéré-Richer, D, Yamano, S, Hu, Y, Sheffer, M, Dhimolea, E, Dashevsky, O, Gandolfi, S, Ishiguro, K, Meyers, RM, Bryan, JG, Dharia, NV, Hengeveld, PJ, Brüggenthies, JB, Tang, H, Aguirre, AJ, Sievers, QL, Ebert, BL, Glassner, BJ, Ott, CJ, Bradner, JE, Kwiatkowski, NP, Auclair, D, Levy, J, Keats, JJ, Groen, RWJ, Gray, NS, Culhane, AC, McFarland, JM, Dempster, JM, Licht, JD, Boise, LH, Hahn, WC, Vazquez, F, Tsherniak, A & Mitsiades, CS 2023, 'Genome-scale functional genomics identify genes preferentially essential for multiple myeloma cells compared to other neoplasias', Nature Cancer, vol. 4, no. 5, pp. 754-773. https://doi.org/10.1038/s43018-023-00550-x

@article{26742527b9664850a7996c171887880f,

title = "Genome-scale functional genomics identify genes preferentially essential for multiple myeloma cells compared to other neoplasias",

abstract = "Clinical progress in multiple myeloma (MM), an incurable plasma cell (PC) neoplasia, has been driven by therapies that have limited applications beyond MM/PC neoplasias and do not target specific oncogenic mutations in MM. Instead, these agents target pathways critical for PC biology yet largely dispensable for malignant or normal cells of most other lineages. Here we systematically characterized the lineage-preferential molecular dependencies of MM through genome-scale clustered regularly interspaced short palindromic repeats (CRISPR) studies in 19 MM versus hundreds of non-MM lines and identified 116 genes whose disruption more significantly affects MM cell fitness compared with other malignancies. These genes, some known, others not previously linked to MM, encode transcription factors, chromatin modifiers, endoplasmic reticulum components, metabolic regulators or signaling molecules. Most of these genes are not among the top amplified, overexpressed or mutated in MM. Functional genomics approaches thus define new therapeutic targets in MM not readily identifiable by standard genomic, transcriptional or epigenetic profiling analyses.",

author = "{de Matos Simoes}, Ricardo and Ryosuke Shirasaki and Downey-Kopyscinski, {Sondra L.} and Matthews, {Geoffrey M.} and Barwick, {Benjamin G.} and Gupta, {Vikas A.} and Daphn{\'e} Dup{\'e}r{\'e}-Richer and Shizuka Yamano and Yiguo Hu and Michal Sheffer and Eugen Dhimolea and Olga Dashevsky and Sara Gandolfi and Kazuya Ishiguro and Meyers, {Robin M.} and Bryan, {Jordan G.} and Dharia, {Neekesh V.} and Hengeveld, {Paul J.} and Br{\"u}ggenthies, {Johanna B.} and Huihui Tang and Aguirre, {Andrew J.} and Sievers, {Quinlan L.} and Ebert, {Benjamin L.} and Glassner, {Brian J.} and Ott, {Christopher J.} and Bradner, {James E.} and Kwiatkowski, {Nicholas P.} and Daniel Auclair and Joan Levy and Keats, {Jonathan J.} and Groen, {Richard W.J.} and Gray, {Nathanael S.} and Culhane, {Aedin C.} and McFarland, {James M.} and Dempster, {Joshua M.} and Licht, {Jonathan D.} and Boise, {Lawrence H.} and Hahn, {William C.} and Francisca Vazquez and Aviad Tsherniak and Mitsiades, {Constantine S.}",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive licence to Springer Nature America, Inc.",

year = "2023",

month = may,

doi = "10.1038/s43018-023-00550-x",

language = "English (US)",

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pages = "754--773",

journal = "Nature Cancer",

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T1 - Genome-scale functional genomics identify genes preferentially essential for multiple myeloma cells compared to other neoplasias

AU - de Matos Simoes, Ricardo

AU - Shirasaki, Ryosuke

AU - Downey-Kopyscinski, Sondra L.

AU - Matthews, Geoffrey M.

AU - Barwick, Benjamin G.

AU - Gupta, Vikas A.

AU - Dupéré-Richer, Daphné

AU - Yamano, Shizuka

AU - Hu, Yiguo

AU - Sheffer, Michal

AU - Dhimolea, Eugen

AU - Dashevsky, Olga

AU - Gandolfi, Sara

AU - Ishiguro, Kazuya

AU - Meyers, Robin M.

AU - Bryan, Jordan G.

AU - Dharia, Neekesh V.

AU - Hengeveld, Paul J.

AU - Brüggenthies, Johanna B.

AU - Tang, Huihui

AU - Aguirre, Andrew J.

AU - Sievers, Quinlan L.

AU - Ebert, Benjamin L.

AU - Glassner, Brian J.

AU - Ott, Christopher J.

AU - Bradner, James E.

AU - Kwiatkowski, Nicholas P.

AU - Auclair, Daniel

AU - Levy, Joan

AU - Keats, Jonathan J.

AU - Groen, Richard W.J.

AU - Gray, Nathanael S.

AU - Culhane, Aedin C.

AU - McFarland, James M.

AU - Dempster, Joshua M.

AU - Licht, Jonathan D.

AU - Boise, Lawrence H.

AU - Hahn, William C.

AU - Vazquez, Francisca

AU - Tsherniak, Aviad

AU - Mitsiades, Constantine S.

PY - 2023/5

Y1 - 2023/5

N2 - Clinical progress in multiple myeloma (MM), an incurable plasma cell (PC) neoplasia, has been driven by therapies that have limited applications beyond MM/PC neoplasias and do not target specific oncogenic mutations in MM. Instead, these agents target pathways critical for PC biology yet largely dispensable for malignant or normal cells of most other lineages. Here we systematically characterized the lineage-preferential molecular dependencies of MM through genome-scale clustered regularly interspaced short palindromic repeats (CRISPR) studies in 19 MM versus hundreds of non-MM lines and identified 116 genes whose disruption more significantly affects MM cell fitness compared with other malignancies. These genes, some known, others not previously linked to MM, encode transcription factors, chromatin modifiers, endoplasmic reticulum components, metabolic regulators or signaling molecules. Most of these genes are not among the top amplified, overexpressed or mutated in MM. Functional genomics approaches thus define new therapeutic targets in MM not readily identifiable by standard genomic, transcriptional or epigenetic profiling analyses.

AB - Clinical progress in multiple myeloma (MM), an incurable plasma cell (PC) neoplasia, has been driven by therapies that have limited applications beyond MM/PC neoplasias and do not target specific oncogenic mutations in MM. Instead, these agents target pathways critical for PC biology yet largely dispensable for malignant or normal cells of most other lineages. Here we systematically characterized the lineage-preferential molecular dependencies of MM through genome-scale clustered regularly interspaced short palindromic repeats (CRISPR) studies in 19 MM versus hundreds of non-MM lines and identified 116 genes whose disruption more significantly affects MM cell fitness compared with other malignancies. These genes, some known, others not previously linked to MM, encode transcription factors, chromatin modifiers, endoplasmic reticulum components, metabolic regulators or signaling molecules. Most of these genes are not among the top amplified, overexpressed or mutated in MM. Functional genomics approaches thus define new therapeutic targets in MM not readily identifiable by standard genomic, transcriptional or epigenetic profiling analyses.

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C2 - 37237081

AN - SCOPUS:85160376656

SN - 2662-1347

VL - 4

SP - 754

EP - 773

JO - Nature Cancer

JF - Nature Cancer

IS - 5

ER -

Genome-scale functional genomics identify genes preferentially essential for multiple myeloma cells compared to other neoplasias

Abstract

ASJC Scopus subject areas

UN SDGs

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