Large-Scale Profiling of Kinase Dependencies in Cancer Cell Lines

James Campbell; Colm J. Ryan; Rachel Brough; Ilirjana Bajrami; Helen N. Pemberton; Irene Y. Chong; Sara Costa-Cabral; Jessica Frankum; Aditi Gulati; Harriet Holme; Rowan Miller; Sophie Postel-Vinay; Rumana Rafiq; Wenbin Wei; Chris T. Williamson; David A. Quigley; Joe Tym; Bissan Al-Lazikani; Timothy Fenton; Rachael Natrajan; Sandra J. Strauss; Alan Ashworth; Christopher J. Lord

doi:10.1016/j.celrep.2016.02.023

Large-Scale Profiling of Kinase Dependencies in Cancer Cell Lines

James Campbell, Colm J. Ryan, Rachel Brough, Ilirjana Bajrami, Helen N. Pemberton, Irene Y. Chong, Sara Costa-Cabral, Jessica Frankum, Aditi Gulati, Harriet Holme, Rowan Miller, Sophie Postel-Vinay, Rumana Rafiq, Wenbin Wei, Chris T. Williamson, David A. Quigley, Joe Tym, Bissan Al-Lazikani, Timothy Fenton, Rachael NatrajanSandra J. Strauss, Alan Ashworth, Christopher J. Lord

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

84 Scopus citations

Abstract

One approach to identifying cancer-specific vulnerabilities and therapeutic targets is to profile genetic dependencies in cancer cell lines. Here, we describe data from a series of siRNA screens that identify the kinase genetic dependencies in 117 cancer cell lines from ten cancer types. By integrating the siRNA screen data with molecular profiling data, including exome sequencing data, we show how vulnerabilities/genetic dependencies that are associated with mutations in specific cancer driver genes can be identified. By integrating additional data sets into this analysis, including protein-protein interaction data, we also demonstrate that the genetic dependencies associated with many cancer driver genes form dense connections on functional interaction networks. We demonstrate the utility of this resource by using it to predict the drug sensitivity of genetically or histologically defined subsets of tumor cell lines, including an increased sensitivity of osteosarcoma cell lines to FGFR inhibitors and SMAD4 mutant tumor cells to mitotic inhibitors.

Original language	English (US)
Pages (from-to)	2490-2501
Number of pages	12
Journal	Cell Reports
Volume	14
Issue number	10
DOIs	https://doi.org/10.1016/j.celrep.2016.02.023
State	Published - Mar 15 2016
Externally published	Yes

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2016.02.023

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Campbell, J., Ryan, C. J., Brough, R., Bajrami, I., Pemberton, H. N., Chong, I. Y., Costa-Cabral, S., Frankum, J., Gulati, A., Holme, H., Miller, R., Postel-Vinay, S., Rafiq, R., Wei, W., Williamson, C. T., Quigley, D. A., Tym, J., Al-Lazikani, B., Fenton, T., ... Lord, C. J. (2016). Large-Scale Profiling of Kinase Dependencies in Cancer Cell Lines. Cell Reports, 14(10), 2490-2501. https://doi.org/10.1016/j.celrep.2016.02.023

Campbell, J, Ryan, CJ, Brough, R, Bajrami, I, Pemberton, HN, Chong, IY, Costa-Cabral, S, Frankum, J, Gulati, A, Holme, H, Miller, R, Postel-Vinay, S, Rafiq, R, Wei, W, Williamson, CT, Quigley, DA, Tym, J, Al-Lazikani, B, Fenton, T, Natrajan, R, Strauss, SJ, Ashworth, A & Lord, CJ 2016, 'Large-Scale Profiling of Kinase Dependencies in Cancer Cell Lines', Cell Reports, vol. 14, no. 10, pp. 2490-2501. https://doi.org/10.1016/j.celrep.2016.02.023

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abstract = "One approach to identifying cancer-specific vulnerabilities and therapeutic targets is to profile genetic dependencies in cancer cell lines. Here, we describe data from a series of siRNA screens that identify the kinase genetic dependencies in 117 cancer cell lines from ten cancer types. By integrating the siRNA screen data with molecular profiling data, including exome sequencing data, we show how vulnerabilities/genetic dependencies that are associated with mutations in specific cancer driver genes can be identified. By integrating additional data sets into this analysis, including protein-protein interaction data, we also demonstrate that the genetic dependencies associated with many cancer driver genes form dense connections on functional interaction networks. We demonstrate the utility of this resource by using it to predict the drug sensitivity of genetically or histologically defined subsets of tumor cell lines, including an increased sensitivity of osteosarcoma cell lines to FGFR inhibitors and SMAD4 mutant tumor cells to mitotic inhibitors.",

author = "James Campbell and Ryan, {Colm J.} and Rachel Brough and Ilirjana Bajrami and Pemberton, {Helen N.} and Chong, {Irene Y.} and Sara Costa-Cabral and Jessica Frankum and Aditi Gulati and Harriet Holme and Rowan Miller and Sophie Postel-Vinay and Rumana Rafiq and Wenbin Wei and Williamson, {Chris T.} and Quigley, {David A.} and Joe Tym and Bissan Al-Lazikani and Timothy Fenton and Rachael Natrajan and Strauss, {Sandra J.} and Alan Ashworth and Lord, {Christopher J.}",

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AU - Chong, Irene Y.

AU - Costa-Cabral, Sara

AU - Frankum, Jessica

AU - Gulati, Aditi

AU - Holme, Harriet

AU - Miller, Rowan

AU - Postel-Vinay, Sophie

AU - Rafiq, Rumana

AU - Wei, Wenbin

AU - Williamson, Chris T.

AU - Quigley, David A.

AU - Tym, Joe

AU - Al-Lazikani, Bissan

AU - Fenton, Timothy

AU - Natrajan, Rachael

AU - Strauss, Sandra J.

AU - Ashworth, Alan

AU - Lord, Christopher J.

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N2 - One approach to identifying cancer-specific vulnerabilities and therapeutic targets is to profile genetic dependencies in cancer cell lines. Here, we describe data from a series of siRNA screens that identify the kinase genetic dependencies in 117 cancer cell lines from ten cancer types. By integrating the siRNA screen data with molecular profiling data, including exome sequencing data, we show how vulnerabilities/genetic dependencies that are associated with mutations in specific cancer driver genes can be identified. By integrating additional data sets into this analysis, including protein-protein interaction data, we also demonstrate that the genetic dependencies associated with many cancer driver genes form dense connections on functional interaction networks. We demonstrate the utility of this resource by using it to predict the drug sensitivity of genetically or histologically defined subsets of tumor cell lines, including an increased sensitivity of osteosarcoma cell lines to FGFR inhibitors and SMAD4 mutant tumor cells to mitotic inhibitors.

AB - One approach to identifying cancer-specific vulnerabilities and therapeutic targets is to profile genetic dependencies in cancer cell lines. Here, we describe data from a series of siRNA screens that identify the kinase genetic dependencies in 117 cancer cell lines from ten cancer types. By integrating the siRNA screen data with molecular profiling data, including exome sequencing data, we show how vulnerabilities/genetic dependencies that are associated with mutations in specific cancer driver genes can be identified. By integrating additional data sets into this analysis, including protein-protein interaction data, we also demonstrate that the genetic dependencies associated with many cancer driver genes form dense connections on functional interaction networks. We demonstrate the utility of this resource by using it to predict the drug sensitivity of genetically or histologically defined subsets of tumor cell lines, including an increased sensitivity of osteosarcoma cell lines to FGFR inhibitors and SMAD4 mutant tumor cells to mitotic inhibitors.

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Large-Scale Profiling of Kinase Dependencies in Cancer Cell Lines

Abstract

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