Cancer is a disease that emerges though genetic and epigenetic alterations that perturb molecular networks controlling cell growth, survival, and differentiation. To develop more targeted and efficacious cancer treatments, it is essential to situate and understand drug actions in this networked, systems-level context. For most anti-cancer drugs, only partial knowledge exists about the detailed mechanism of action. Even where targets have been defined, as with FDA-approved and in-clinical-trial drugs, broader off-target effects are often poorly understood. Compound activity and genomic profiling data over well-characterized cell line panels allows one to attempt computational prediction of molecular drug response determinants. However, these computational techniques exist in a continuum of complexity, and each has its assets and shortcomings. We have and will use a combination of approaches ranging from the simple to the complex. We employ Pearson's or Spearman's, or Matthew's correlation-based approaches that can identify genomic features with cell line profiles that are significantly correlated with a compounds activity profile. This methodology has demonstrated the ability to recognize robustly correlated parameters. They are employed in our CellMiner Pattern comparison, Cross correlation, Genetic variant summation, Genetic variant versus drug visualization, and Cell line signature tools. In addition, we use state-of-the-art mathematical techniques to compare our large drug compound database to our extensive network of molecular factors using the NCI-60 cancer cell lines. Included are the elastic net regression algorithm (a machine learning approach) to identify robust, cumulative predictors of drug response. Included in this analysis are gene and microRNA transcript expression, gene copy number, gene sequence variation, and soon DNA methylation status. Pathway enrichment analysis for those identified molecular factors with significantly correlated molecular profiles may be applied. The selection of which analytical method to use to identify biologically-related events is not settled or simplistic. It is influenced by the biological question being asked, the level of biological knowledge available, and the strengths, weaknesses, and applicability of each mathematical approach. It remains a field in it's infancy. Among our previous successfully identified list of molecular-pharmacological associations are i) SLFN11 transcript expression for topoisomerase 1 and 2 inhibitors, alkylating agents, and DNA synthesis inhibitors ii) the identification of Ro5-3335 as a lead compound for Core Binding Factor leukemias iii) TP53 mutational status and the activity of the MDM2-TP53 interaction inhibitor nutlin iv) a multifactorial combination of ERBB1 and 2 expression and RAS-RAF-PTEN mutational status for the activity of erlotinib v) ATAD5 mutational status for the DNA-damaging drugs bleomycin, zorbamycin, and peplomycin vi) genetic variants for the DNA replication and repair gene vi) MUS81 with the DNA synthesis inhibitor cladribine, and vii) genetic variants for the DNA damage repair gene RAD52 for the DNA damaging ifosfomide.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Scientific Cores Intramural Research (ZIC)
Project #
1ZICBC011509-06
Application #
9780251
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
6
Fiscal Year
2018
Total Cost
Indirect Cost
Name
Basic Sciences
Department
Type
DUNS #
City
State
Country
Zip Code
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Sousa, Fabricio G; Matuo, Renata; Tang, Sai-Wen et al. (2015) Alterations of DNA repair genes in the NCI-60 cell lines and their predictive value for anticancer drug activity. DNA Repair (Amst) 28:107-15
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Reinhold, William C; Varma, Sudhir; Sousa, Fabricio et al. (2014) NCI-60 whole exome sequencing and pharmacological CellMiner analyses. PLoS One 9:e101670

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