Genome-scale analysis identifies paralog lethality as a vulnerability of chromosome 1p loss in cancer

Functional redundancy shared by paralog genes may afford protection against genetic perturbations, but it can also result in genetic vulnerabilities due to mutual interdependency(1–5). Here, we surveyed genome-scale shRNA and CRISPR screening data on hundreds of cancer cell lines and identified MAGO...

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Autores principales: Viswanathan, Srinivas R., Nogueira, Marina F., Buss, Colin G., Krill-Burger, John M., Wawer, Mathias J., Malolepsza, Edyta, Berger, Ashton C., Choi, Peter S., Shih, Juliann, Taylor, Alison M., Tanenbaum, Benjamin, Pedamallu, Chandra Sekhar, Cherniack, Andrew D., Tamayo, Pablo, Strathdee, Craig A., Lage, Kasper, Carr, Steven A., Schenone, Monica, Bhatia, Sangeeta N., Vazquez, Francisca, Tsherniak, Aviad, Hahn, William C., Meyerson, Matthew
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2018
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6143899/
https://www.ncbi.nlm.nih.gov/pubmed/29955178
http://dx.doi.org/10.1038/s41588-018-0155-3
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author Viswanathan, Srinivas R.
Nogueira, Marina F.
Buss, Colin G.
Krill-Burger, John M.
Wawer, Mathias J.
Malolepsza, Edyta
Berger, Ashton C.
Choi, Peter S.
Shih, Juliann
Taylor, Alison M.
Tanenbaum, Benjamin
Pedamallu, Chandra Sekhar
Cherniack, Andrew D.
Tamayo, Pablo
Strathdee, Craig A.
Lage, Kasper
Carr, Steven A.
Schenone, Monica
Bhatia, Sangeeta N.
Vazquez, Francisca
Tsherniak, Aviad
Hahn, William C.
Meyerson, Matthew
author_facet Viswanathan, Srinivas R.
Nogueira, Marina F.
Buss, Colin G.
Krill-Burger, John M.
Wawer, Mathias J.
Malolepsza, Edyta
Berger, Ashton C.
Choi, Peter S.
Shih, Juliann
Taylor, Alison M.
Tanenbaum, Benjamin
Pedamallu, Chandra Sekhar
Cherniack, Andrew D.
Tamayo, Pablo
Strathdee, Craig A.
Lage, Kasper
Carr, Steven A.
Schenone, Monica
Bhatia, Sangeeta N.
Vazquez, Francisca
Tsherniak, Aviad
Hahn, William C.
Meyerson, Matthew
author_sort Viswanathan, Srinivas R.
collection PubMed
description Functional redundancy shared by paralog genes may afford protection against genetic perturbations, but it can also result in genetic vulnerabilities due to mutual interdependency(1–5). Here, we surveyed genome-scale shRNA and CRISPR screening data on hundreds of cancer cell lines and identified MAGOH and MAGOHB, core members of the splicing-dependent exon junction complex, as top-ranked paralog dependencies(6–8). MAGOHB is the top gene dependency in cells with hemizygous MAGOH deletion, a pervasive genetic event that frequently occurs due to chromosome 1p loss. Inhibition of MAGOHB in a MAGOH-deleted context compromises viability by globally perturbing alternative splicing and RNA surveillance. Dependency on IPO13, an importin-β receptor that mediates nuclear import of the MAGOH/B-Y14 heterodimer(9), is highly correlated to dependency on both MAGOH and MAGOHB. Both MAGOHB and IPO13 represent dependencies in murine xenografts with hemizygous MAGOH deletion. Our results identify MAGOH and MAGOHB as reciprocal paralog dependencies across cancer types and suggest a rationale for targeting the MAGOHB-IPO13 axis in cancers with chromosome 1p deletion.
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spelling pubmed-61438992018-12-28 Genome-scale analysis identifies paralog lethality as a vulnerability of chromosome 1p loss in cancer Viswanathan, Srinivas R. Nogueira, Marina F. Buss, Colin G. Krill-Burger, John M. Wawer, Mathias J. Malolepsza, Edyta Berger, Ashton C. Choi, Peter S. Shih, Juliann Taylor, Alison M. Tanenbaum, Benjamin Pedamallu, Chandra Sekhar Cherniack, Andrew D. Tamayo, Pablo Strathdee, Craig A. Lage, Kasper Carr, Steven A. Schenone, Monica Bhatia, Sangeeta N. Vazquez, Francisca Tsherniak, Aviad Hahn, William C. Meyerson, Matthew Nat Genet Article Functional redundancy shared by paralog genes may afford protection against genetic perturbations, but it can also result in genetic vulnerabilities due to mutual interdependency(1–5). Here, we surveyed genome-scale shRNA and CRISPR screening data on hundreds of cancer cell lines and identified MAGOH and MAGOHB, core members of the splicing-dependent exon junction complex, as top-ranked paralog dependencies(6–8). MAGOHB is the top gene dependency in cells with hemizygous MAGOH deletion, a pervasive genetic event that frequently occurs due to chromosome 1p loss. Inhibition of MAGOHB in a MAGOH-deleted context compromises viability by globally perturbing alternative splicing and RNA surveillance. Dependency on IPO13, an importin-β receptor that mediates nuclear import of the MAGOH/B-Y14 heterodimer(9), is highly correlated to dependency on both MAGOH and MAGOHB. Both MAGOHB and IPO13 represent dependencies in murine xenografts with hemizygous MAGOH deletion. Our results identify MAGOH and MAGOHB as reciprocal paralog dependencies across cancer types and suggest a rationale for targeting the MAGOHB-IPO13 axis in cancers with chromosome 1p deletion. 2018-06-28 2018-07 /pmc/articles/PMC6143899/ /pubmed/29955178 http://dx.doi.org/10.1038/s41588-018-0155-3 Text en Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Viswanathan, Srinivas R.
Nogueira, Marina F.
Buss, Colin G.
Krill-Burger, John M.
Wawer, Mathias J.
Malolepsza, Edyta
Berger, Ashton C.
Choi, Peter S.
Shih, Juliann
Taylor, Alison M.
Tanenbaum, Benjamin
Pedamallu, Chandra Sekhar
Cherniack, Andrew D.
Tamayo, Pablo
Strathdee, Craig A.
Lage, Kasper
Carr, Steven A.
Schenone, Monica
Bhatia, Sangeeta N.
Vazquez, Francisca
Tsherniak, Aviad
Hahn, William C.
Meyerson, Matthew
Genome-scale analysis identifies paralog lethality as a vulnerability of chromosome 1p loss in cancer
title Genome-scale analysis identifies paralog lethality as a vulnerability of chromosome 1p loss in cancer
title_full Genome-scale analysis identifies paralog lethality as a vulnerability of chromosome 1p loss in cancer
title_fullStr Genome-scale analysis identifies paralog lethality as a vulnerability of chromosome 1p loss in cancer
title_full_unstemmed Genome-scale analysis identifies paralog lethality as a vulnerability of chromosome 1p loss in cancer
title_short Genome-scale analysis identifies paralog lethality as a vulnerability of chromosome 1p loss in cancer
title_sort genome-scale analysis identifies paralog lethality as a vulnerability of chromosome 1p loss in cancer
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6143899/
https://www.ncbi.nlm.nih.gov/pubmed/29955178
http://dx.doi.org/10.1038/s41588-018-0155-3
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