A community computational challenge to predict the activity of pairs of compounds

Bansal, Mukesh; Yang, Jichen; Karan, Charles; Menden, Michael P; Costello, James C; Tang, Hao; Xiao, Guanghua; Li, Yajuan; Allen, Jeffrey; Zhong, Rui; Chen, Beibei; Kim, Minsoo; Wang, Tao; Heiser, Laura M; Realubit, Ronald; Mattioli, Michela; Alvarez, Mariano J; Shen, Yao; Abbuehl, Jean-Paul; Allen, Jeffrey; Altman, Russ B; Balcome, Shawn; Bansal, Mukesh; Bell, Ana; Bender, Andreas; Berger, Bonnie; Bernard, Jonathan; Bieberich, Andrew A; Borboudakis, Giorgos; Califano, Andrea; Chan, Christina; Chen, Beibei; Chen, Ting-Huei; Choi, Jaejoon; Coelho, Luis Pedro; Costello, James C; Creighton, Chad J; Dampier, Will; Davisson, V Jo; Deshpande, Raamesh; Diao, Lixia; Di Camillo, Barbara; Dundar, Murat; Ertel, Adam; Group, Cellworks; Gallahan, Daniel; Goswami, Chirayu P; Gottlieb, Assaf; Gould, Michael N; Goya, Jonathan; Grau, Michael; Gray, Joe W; Heiser, Laura M; Hejase, Hussein A; Hoffmann, Michael F; Homicsko, Krisztian; Homilius, Max; Hwang, Woochang; Ijzerman, Adriaan P; Kallioniemi, Olli; Karacali, Bilge; Karan, Charles; Kaski, Samuel; Kim, Junho; Kim, Minsoo; Krishnan, Arjun; Lee, Junehawk; Lee, Young-Suk; Lenselink, Eelke B; Lenz, Peter; Li, Lang; Li, Jun; Li, Yajuan; Liang, Han; Mattioli, Michela; Menden, Michael P; Mpindi, John-Patrick; Myers, Chad L; Newton, Michael A; Overington, John P; Parkkinen, Juuso; Prill, Robert J; Peng, Jian; Pestell, Richard; Qiu, Peng; Rajwa, Bartek; Realubit, Ronald; Sadanandam, Anguraj; Saez-Rodriguez, Julio; Sambo, Francesco; Singer, Dinah; Stolovitzky, Gustavo; Sridhar, Arvind; Sun, Wei; Tang, Hao; Toffolo, Gianna M; Tozeren, Aydin; Troyanskaya, Olga G; Tsamardinos, Ioannis; van Vlijmen, Herman W T; Wang, Tao; Wang, Wen; Wegner, Joerg K; Wennerberg, Krister; van Westen, Gerard J P; Xia, Tian; Xiao, Guanghua; Xie, Yang; Yang, Jichen; Yang, Yang; Yao, Victoria; Yuan, Yuan; Zeng, Haoyang; Zhang, Shihua; Zhao, Junfei; Zhou, Jian; Zhong, Rui; Gallahan, Daniel; Singer, Dinah; Saez-Rodriguez, Julio; Xie, Yang; Stolovitzky, Gustavo; Califano, Andrea

Author(s)

Zeng, Haoyang

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Abstract

Recent therapeutic successes have renewed interest in drug combinations, but experimental screening approaches are costly and often identify only small numbers of synergistic combinations. The DREAM consortium launched an open challenge to foster the development of in silico methods to computationally rank 91 compound pairs, from the most synergistic to the most antagonistic, based on gene-expression profiles of human B cells treated with individual compounds at multiple time points and concentrations. Using scoring metrics based on experimental dose-response curves, we assessed 32 methods (31 community-generated approaches and SynGen), four of which performed significantly better than random guessing. We highlight similarities between the methods. Although the accuracy of predictions was not optimal, we find that computational prediction of compound-pair activity is possible, and that community challenges can be useful to advance the field of in silico compound-synergy prediction.

Date issued

2014-11

URI

http://hdl.handle.net/1721.1/110181

Department

Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory; Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science

Journal

Nature Biotechnology

Publisher

Nature Publishing Group

Citation

Bansal, Mukesh, Jichen Yang, Charles Karan, Michael P Menden, James C Costello, Hao Tang, Guanghua Xiao, et al. “A Community Computational Challenge to Predict the Activity of Pairs of Compounds.” Nature Biotechnology 32, no. 12 (November 17, 2014): 1213–1222. © 2014 Nature America, Inc.

Version: Author's final manuscript

ISSN

1087-0156

1546-1696

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