Illuminating the structural basis of human neurokinin 1 receptor (NK1R) antagonism through classical all‐atoms molecular dynamics simulations

Author:

Mishra Sarbani1,Rout Madhusmita1,Singh Mahender Kumar2,Dehury Budheswar1ORCID,Pati Sanghamitra1ORCID

Affiliation:

1. Bioinformatics Division ICMR‐Regional Medical Research Centre Bhubaneswar Odisha India

2. Data Science Laboratory National Brain Research Centre Gurgaon Haryana India

Abstract

AbstractAdvances in structural biology have bestowed insights into the pleiotropic effects of neurokinin 1 receptors (NK1R) in diverse patho‐physiological processes, thereby highlighting the potential therapeutic value of antagonists directed against NK1R. Herein, we investigate the mode of antagonist recognition to discern the obscure atomic facets germane for the function and molecular determinants of NK1R. To commence discernment of potent antagonists and the conformational changes in NK1R, induced upon antagonist binding, state‐of‐the‐art classical all‐atoms molecular dynamics (MD) simulations in lipid mimetic bilayers have been utilized. MD simulations of structural ensembles reveals the involvement of TM5 and TM6 in tight anchoring of antagonists through a network of interhelical hydrogen‐bonds, while, the extracellular loop 2 (ECL2) governs the overall size and nature of the pocket, thereby modulating NK1R. Consistent comparison between experiments and MD simulation results discerns the predominant role of TM3, TM4, and TM6 in lipid‐NK1R interaction. Correlation between hydrophobic index and helicity of TM domains elucidates their importance in maintaining the structural stability in addition to regulating NK1R antagonism. Taken together, we anticipate that our computational study marks a comprehensive structural basis of NK1R antagonism in lipid bilayers, which may facilitate designing of new therapeutics against associated diseases targeting human neurokinin receptors.

Publisher

Wiley

Subject

Cell Biology,Molecular Biology,Biochemistry

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