Structural determinants of sphingosine‐1‐phosphate receptor selectivity
Friederike Wunsch, Trung Ngoc Nguyen, Gerhard Wolber, Marcel Bermúdez
Abstract
Abstract Fingolimod, the prodrug of fingolimod‐1‐phosphate (F1P), was the first sphingosine‐1‐phosphate receptor (S1PR) modulator approved for multiple sclerosis. F1P unselectively targets all five S1PR subtypes. While agonism (functional antagonism via receptor internalization) at S1PR 1 leads to the desired immune modulatory effects, agonism at S1PR 3 is associated with cardiac adverse effects. This motivated the development of S1PR 3 ‐sparing compounds and led to a second generation of S1PR 1,5 ‐selective ligands like siponimod and ozanimod. Our method combines molecular dynamics simulations and three‐dimensional pharmacophores (dynophores) and enables the elucidation of S1PR subtype‐specific binding site characteristics, visualizing also subtle differences in receptor–ligand interactions. F1P and the endogenous ligand sphingosine‐1‐phosphate bind to the orthosteric pocket of all S1PRs, but show different binding mode dynamics, uncovering potential starting points for the development of subtype‐specific ligands. Our study contributes to the mechanistic understanding of the selectivity profile of approved drugs like ozanimod and siponimod and pharmaceutical tool compounds like CYM5541.