RECOVER identifies synergistic drug combinations in vitro through sequential model optimization
- Cell Rep Methods. 2023 Oct 23;3(10):100599. doi: 10.1016/j.crmeth.2023.100599.
- 1. Mila, the Quebec AI Institute, Montreal, QC, Canada.
- 2. Relation Therapeutics, London, UK.
- 3. Department of Chemistry, The Scripps Research Institute, La Jolla, CA, USA.
- 4. Innovac Therapeutics, Inc., Cambridge, MA, USA.
- 5. IRIC, Institute for Research in Immunology and Cancer, Université de Montréal, Montreal, QC, Canada.
- 6. Program in Molecular Medicine, Peter Gilgan Centre for Research and Learning, The Hospital for Sick Children, 686 Bay Street, Toronto, ON M5G 0A4, Canada.
- 7. Relation Therapeutics, London, UK; Department of Computer Science, University of Oxford, Oxford, UK.
- 8. Relation Therapeutics, London, UK. Electronic address: [email protected].
For large libraries of small molecules, exhaustive combinatorial chemical screens become infeasible to perform when considering a range of disease models, assay conditions, and dose ranges. Deep learning models have achieved state-of-the-art results in silico for the prediction of synergy scores. However, databases of drug combinations are biased toward synergistic agents and results do not generalize out of distribution. During 5 rounds of experimentation, we employ sequential model optimization with a deep learning model to select drug combinations increasingly enriched for synergism and active against a Cancer cell line-evaluating only ∼5% of the total search space. Moreover, we find that learned drug embeddings (using structural information) begin to reflect biological mechanisms. In silico benchmarking suggests search queries are ∼5-10× enriched for highly synergistic drug combinations by using sequential rounds of evaluation when compared with random selection or ∼3× when using a pretrained model.
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Cat. No.Product NameDescriptionTargetResearch Area
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target: mTOR; FKBP; Molecular Glues; Fungal; Autophagy; Endogenous Metabolite; Antibiotic; Bacterial
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Research Areas: Cancer
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target: Proteasome; NF-κB; Apoptosis; Autophagy; TREM receptor; Ligands for Target Protein for PROTACResearch Areas: Cancer
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Research Areas: Cancer
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target: COX
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target: CDK
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Research Areas: Cancer
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Research Areas: Cancer
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Research Areas: Cancer
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target: Ligands for Target Protein for PROTAC; Anaplastic lymphoma kinase (ALK); c-Met/HGFR; ROS KinaseResearch Areas: Cancer
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Research Areas: Cancer
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Research Areas: Cancer
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Research Areas: Cancer
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Research Areas: Cancer
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target: Xanthine Oxidase
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target: Dopamine Receptor
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Research Areas: Cancer
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Research Areas: Cancer
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target: Estrogen Receptor/ERRResearch Areas: Cancer
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target: DNA Alkylator/CrosslinkerResearch Areas: Cancer
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target: Cytochrome P450Research Areas: Cancer
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Research Areas: Cancer
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Research Areas: Cancer
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target: COX
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target: Cytochrome P450
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target: TopoisomeraseResearch Areas: Cancer
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target: Cytochrome P450Research Areas: Cancer
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target: Apoptosis
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Research Areas: Cancer
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target: COX
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target: DNA Alkylator/CrosslinkerResearch Areas: Cancer
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target: Adrenergic Receptor
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target: Adrenergic Receptor
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Research Areas: Cancer
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Research Areas: Metabolic Disease
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Research Areas: Cancer
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target: PPARResearch Areas: Metabolic Disease
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target: AminopeptidaseResearch Areas: Cancer
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Research Areas: Neurological Disease
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target: Serotonin TransporterResearch Areas: Neurological Disease
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target: Apoptosis
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target: DNA Alkylator/CrosslinkerResearch Areas: Cancer
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target: 5-HT Receptor
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target: COXResearch Areas: Inflammation/Immunology
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target: iGluRResearch Areas: Neurological Disease
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target: 5-HT ReceptorResearch Areas: Neurological Disease
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target: c-Met/HGFR
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target: COXResearch Areas: Inflammation/Immunology
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target: Adrenergic Receptor
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Research Areas: Inflammation/Immunology
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target: nAChR
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target: Adrenergic Receptor
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target: Glucocorticoid Receptor
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target: Estrogen Receptor/ERRResearch Areas: Endocrinology
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target: Sodium ChannelResearch Areas: Neurological Disease
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Research Areas: Inflammation/Immunology
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target: nAChRResearch Areas: Neurological Disease