Classical and Machine Learning Methods for Protein - Ligand Binding Free Energy
Estimation

Sivakumar, Dakshinamurthy; Wu, Sangwook

doi:10.2174/1389200223666220315160835

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2024

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Cited by 3 publications

References 64 publications

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Gordon

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An Ensemble Approach to the Origin of Life

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Evaluations of the Perturbation Resistance of the Deep-Learning-Based Ligand Conformation Optimization Algorithm

Xin,

Wang,

Wang

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J. Chem. Inf. Model.

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“Pseudosubstrate Envelope”/Free Energy Perturbation-Guided Design and Mechanistic Investigations of Benzothiazole HIV Capsid Modulators with High Ligand Efficiency

Xu,

Wang,

Zhou

et al. 2024

J. Med. Chem.

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Based on our proposed "pseudosubstrate envelope" concept, 25 benzothiazole-bearing HIV capsid protein (CA) modulators were designed and synthesized under the guidance of free energy perturbation technology. The most potent compound, IC-1k, exhibited an EC 50 of 2.69 nM against HIV-1, being 393 times more potent than the positive control PF74. Notably, IC-1k emerged as the highest ligand efficiency (LE = 0.32) HIV CA modulator, surpassing that of the approved drug lenacapavir (LE = 0.21). Surface plasmon resonance assay and crystallographic analysis confirmed that IC-1k targeted HIV-1 CA within the chemical space of the "pseudosubstrate envelope". Further mechanistic studies revealed a dual-stage inhibition profile: IC-1k disrupted earlystage capsid−host-factor interactions and promoted late-stage capsid misassembly. Preliminary pharmacokinetic evaluations demonstrated significantly improved metabolic stability in human liver microsomes for IC-1k (T 1/2 = 91.3 min) compared to PF74 (T 1/2 = 0.7 min), alongside a favorable safety profile. Overall, IC-1k presents a promising lead compound for further optimization.

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Classical and Machine Learning Methods for Protein - Ligand Binding Free Energy Estimation

Cited by 3 publications

References 64 publications

An Ensemble Approach to the Origin of Life

An Ensemble Approach to the Origin of Life

Evaluations of the Perturbation Resistance of the Deep-Learning-Based Ligand Conformation Optimization Algorithm

“Pseudosubstrate Envelope”/Free Energy Perturbation-Guided Design and Mechanistic Investigations of Benzothiazole HIV Capsid Modulators with High Ligand Efficiency

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