Machine Learning-Based Metabolic Pattern Recognition Predicts Mode of Action for Anti-Cancer Drug Candidates

Author:

Balcke Gerd1,Saoud Mohamad1ORCID,Grau Jan2ORCID,Rennert Robert1,Mueller Thomas3ORCID,Yousefi Mohammad1,Davari Mehdi D.1ORCID,Hause Bettina1,Csuk Rene4ORCID,Rashan Luay5,Grosse Ivo6,Tissier Alain1ORCID,Wessjohann Ludger7

Affiliation:

1. Leibniz Institute of Plant Biochemistry

2. Martin Luther Uni Halle

3. Martin Luther University Halle-Wittenberg

4. Martin-Luther-University Halle-Wittenberg

5. Dhofar University

6. Martin-Luther-Universität Halle-Wittenberg

7. 3Leibniz Institute of Plant Biochemistry

Abstract

Abstract A bottleneck in the development of new anti-cancer drugs is the recognition of their mode of action (MoA). We combined metabolomics and machine learning to predict MoAs of novel anti-proliferative drug candidates, focusing on human prostate cancer cells (PC-3). As proof of concept, we studied 38 drugs with known effects on 16 key processes of cancer metabolism, profiling low molecular weight intermediates of the central carbon and cellular energy metabolism (CCEM) by LC-MS/MS. These metabolic patterns unveiled distinct MoAs, enabling accurate MoA predictions for novel agents by machine learning. We validate the transferability of MoA predictions from PC-3 to two other cancer cell models and show that correct predictions are still possible, but at the expense of prediction quality. Furthermore, metabolic profiles of treated cells yield insights into intracellular processes, exemplified for drugs inducing different types of mitochondrial dysfunction. Specifically, we predict that pentacyclic triterpenes inhibit oxidative phosphorylation and affect phospholipid biosynthesis, as supported by respiration parameters, lipidomics, and molecular docking. Using biochemical insights from individual drug treatments, our approach offers new opportunities, including the optimization of combinatorial drug applications.

Publisher

Research Square Platform LLC

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