Affiliation:
1. Department of Computer Science, University of Massachusetts Lowell , Lowell, MA 01854, United States
2. Department of Biological Science, University of Massachusetts Lowell , Lowell, MA 01854, United States
Abstract
Abstract
Motivation
Medications can have unexpected effects on disease, including not only harmful drug side effects, but also beneficial drug repurposing. These effects on disease may result from hidden influences of drugs on disease gene networks. Then, discovering how biological effects of drugs relate to disease biology can both provide insight into the mechanism of latent drug effects, and can help predict new effects.
Results
Here, we develop Draphnet, a model that integrates molecular data on 429 drugs and gene associations of nearly 200 common phenotypes to learn a network that explains drug effects on disease in terms of these molecular signals. We present evidence that our method can both predict drug effects, and can provide insight into the biology of unexpected drug effects on disease. Using Draphnet to map a drug’s known molecular effects to downstream effects on the disease genome, we put forward disease genes impacted by drugs, and we suggest a new grouping of drugs based on shared effects on the disease genome. Our approach has multiple applications, including predicting drug uses and learning drug biology, with implications for personalized medicine.
Availability and implementation
Code to reproduce the analysis is available at https://github.com/RDMelamed/drug-phenome
Funder
National Institutes of Health
Publisher
Oxford University Press (OUP)