The platelet P2Y1 receptor (P2Y1R) is necessary for inflammation, signalling via Rho-GTPase pathways to elicit functions that are distinct from aggregation (PLC-dependent canonical signalling pathway). Whether these distinct platelet inflammatory functions can be selectively suppressed to preserve hemostasis through the rational design of P2Y1R antagonists has not been explored. In silico molecular docking analysis examined biased nucleotide interactions within the P2Y1R binding pocket. The identified possible key amino acid residues guided rational design to synthesize compounds for pathway selective inhibition, evolving from nucleotide to non-nucleotide structures. The nucleotide analogue KMR-82-13 was predicted to engage distinct regions of the binding pocket and selectively inhibited platelet chemotaxis while preserving aggregation. These findings informed the design of a non-nucleotide compound KSN-159-27, aiming to retain key KMR-82-13-like interactions while improving drug-like properties. Docking and molecular dynamics simulation supported a stable but dynamic binding mode for KSN-159-27 within the P2Y1R pocket, consistent with pathway-selective inhibition. KSN-159-27 displayed characteristics of a pathway selective inverse agonist at P2Y1R towards G12/13-mediated pathways, but not those associated by Gq activation in P2Y1R-transfected HEK293T cells. KSN-159-27 showed functionally selective inhibition for platelet P2Y1R-mediated functions. In vivo, KSN-159-27 suppressed inflammatory cell recruitment, whilst preserving bleeding time and ADP-induced thromboembolic responses, in contrast to the neutral P2Y1R antagonist MRS2500. This first demonstration for the rational design of a pathway selective inverse agonist at platelet P2Y1Rs has significant implications for novel therapeutic strategies developed to safely target platelet activation during inflammation, in contrast to current anti-platelet drugs used in the prevention of thrombosis.
Pitchford, S. C., Nahar, K., Pan, D., Sisk, C. M., Al-Adhami, T., Ekinci, K., Amison, R. T., Gargate, N., Saji, A., Wills, E., Page, C. P., Ladds, G., Rahman, K. M.
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