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Computational Modeling of PROTAC Ternary Complexes as Ensembles Using SILCS-xTAC.

Erik B Nordquist1, Mingtian Zhao1, Wenbo Yu1,2,3

  • 1Computer Aided Drug Design Center, Department of Pharmaceutical Sciences, School of Pharmacy, University of Maryland Baltimore, Baltimore, Maryland 21201, United States.

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This summary is machine-generated.

Proteolysis targeting chimeras (PROTACs) are novel therapeutics. A new computational method, SILCS-xTAC, accurately predicts PROTAC binding and aids in designing drugs for challenging protein targets.

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Area of Science:

  • Computational chemistry
  • Drug discovery
  • Structural biology

Background:

  • Proteolysis targeting chimeras (PROTACs) offer a new therapeutic strategy by inducing targeted protein degradation.
  • Designing PROTACs involves stabilizing interactions between target proteins and E3 ubiquitin ligases within a ternary complex.
  • Current computational methods struggle with the complexity of ternary complex modeling.

Purpose of the Study:

  • To develop an accurate and efficient computational method for designing PROTAC ligands.
  • To address the challenge of modeling ternary complexes in drug discovery.
  • To improve the prediction of PROTAC efficacy.

Main Methods:

  • Utilized Site Identification by Ligand Competitive Saturation (SILCS) to generate functional group affinity patterns (FragMaps).
  • Created ensembles of protein-protein interaction (PPI) dimer structures.
  • Developed a SILCS-xTAC method for docking PROTACs into dimer FragMaps and scoring ternary complexes.

Main Results:

  • The SILCS-xTAC method demonstrated modest correlation with experimental DC50 values across diverse systems.
  • Accurate prediction of binding geometries and energetics for ternary complexes was achieved.
  • The method facilitates efficient PROTAC optimization.

Conclusions:

  • SILCS-xTAC is a powerful computational tool for PROTAC design and optimization.
  • This method enhances the ability to target previously undruggable proteins.
  • The approach advances the field of targeted protein degradation therapeutics.