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ChemMORT: an automatic ADMET optimization platform using deep learning and multi-objective particle swarm optimization

Jiacai Yi, Ziyi Yang, Wentao Zhao, Zhijiang Yang, Xiao-Chen Zhang, Chengkun Wu, Aiping Lü, Dongsheng Cao

2024Briefings in Bioinformatics22 citationsDOIOpen Access PDF

Abstract

Drug discovery and development constitute a laborious and costly undertaking. The success of a drug hinges not only good efficacy but also acceptable absorption, distribution, metabolism, elimination, and toxicity (ADMET) properties. Overall, up to 50% of drug development failures have been contributed from undesirable ADMET profiles. As a multiple parameter objective, the optimization of the ADMET properties is extremely challenging owing to the vast chemical space and limited human expert knowledge. In this study, a freely available platform called Chemical Molecular Optimization, Representation and Translation (ChemMORT) is developed for the optimization of multiple ADMET endpoints without the loss of potency (https://cadd.nscc-tj.cn/deploy/chemmort/). ChemMORT contains three modules: Simplified Molecular Input Line Entry System (SMILES) Encoder, Descriptor Decoder and Molecular Optimizer. The SMILES Encoder can generate the molecular representation with a 512-dimensional vector, and the Descriptor Decoder is able to translate the above representation to the corresponding molecular structure with high accuracy. Based on reversible molecular representation and particle swarm optimization strategy, the Molecular Optimizer can be used to effectively optimize undesirable ADMET properties without the loss of bioactivity, which essentially accomplishes the design of inverse QSAR. The constrained multi-objective optimization of the poly (ADP-ribose) polymerase-1 inhibitor is provided as the case to explore the utility of ChemMORT.

Topics & Concepts

Computer scienceParticle swarm optimizationRepresentation (politics)EncoderChemical spaceDrug discoveryArtificial intelligenceMachine learningChemistryBiochemistryOperating systemPoliticsLawPolitical scienceComputational Drug Discovery MethodsMachine Learning in Materials ScienceClick Chemistry and Applications