Computational modeling and experimental validation of the EPI-X4/CXCR4 complex allows rational design of small peptide antagonists.
2021
EPI-X4, a 16-mer fragment of albumin, is a specific endogenous antagonist and inverse agonist of the CXC-motif-chemokine receptor 4 (CXCR4) and thus a key regulator of CXCR4 function. Accordingly, activity-optimized synthetic derivatives of EPI-X4 are promising leads for the therapy of CXCR4-linked disorders such as cancer or inflammatory diseases. We investigated the binding of EPI-X4 to CXCR4, which so far remained unclear, by means of biomolecular simulations combined with experimental mutagenesis and activity studies. We found that EPI-X4 interacts through its N-terminal residues with CXCR4 and identified its key interaction motifs, explaining receptor antagonization. Using this model, we developed shortened EPI-X4 derivatives (7-mers) with optimized receptor antagonizing properties as new leads for the development of CXCR4 inhibitors. Our work reveals the molecular details and mechanism by which the first endogenous peptide antagonist of CXCR4 interacts with its receptor and provides a foundation for the rational design of improved EPI-X4 derivatives. Combining molecular modeling and in vitro bioassays, Sokkar et al. provide an understanding of how EPI-X4, an endogenous peptide antagonist, interacts with its receptor CXCR4. With computational model, validated by mutagenesis studies, they design a series of derivatives with optimized receptor antagonizing properties as new leads for the development of CXCR4 inhibitors.
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