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Computationally repurposing drugs for breast cancer subtypes using a network-based approach

Forough Firoozbakht, Iman Rezaeian, Luis Rueda, Alioune Ngom

2022BMC Bioinformatics20 citationsDOIOpen Access PDF

Abstract

'De novo' drug discovery is costly, slow, and with high risk. Repurposing known drugs for treatment of other diseases offers a fast, low-cost/risk and highly-efficient method toward development of efficacious treatments. The emergence of large-scale heterogeneous biomolecular networks, molecular, chemical and bioactivity data, and genomic and phenotypic data of pharmacological compounds is enabling the development of new area of drug repurposing called 'in silico' drug repurposing, i.e., computational drug repurposing (CDR). The aim of CDR is to discover new indications for an existing drug (drug-centric) or to identify effective drugs for a disease (disease-centric). Both drug-centric and disease-centric approaches have the common challenge of either assessing the similarity or connections between drugs and diseases. However, traditional CDR is fraught with many challenges due to the underlying complex pharmacology and biology of diseases, genes, and drugs, as well as the complexity of their associations. As such, capturing highly non-linear associations among drugs, genes, diseases by most existing CDR methods has been challenging. We propose a network-based integration approach that can best capture knowledge (and complex relationships) contained within and between drugs, genes and disease data. A network-based machine learning approach is applied thereafter by using the extracted knowledge and relationships in order to identify single and pair of approved or experimental drugs with potential therapeutic effects on different breast cancer subtypes. Indeed, further clinical analysis is needed to confirm the therapeutic effects of identified drugs on each breast cancer subtype.

Topics & Concepts

Drug repositioningRepurposingDrug discoveryComputational biologyDrugIn silicoDiseaseDrug developmentDNA microarrayInteraction networkBioinformaticsComputer scienceBiologyMedicinePharmacologyGeneGeneticsEcologyPathologyGene expressionComputational Drug Discovery MethodsBioinformatics and Genomic NetworksMicrobial Natural Products and Biosynthesis
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