Differential effects of the N‐terminal helix of FGF8b on the activity of a small‐molecule FGFR inhibitor in cell culture and for the extracellular domain of FGFR3c in solution

Abstract

SSR128129E (SSR) is a unique small‐molecule inhibitor of fibroblast growth factor receptors (FGFRs). SSR is a high‐affinity allosteric binder that selectively blocks one of the two major FGFR‐mediated pathways. The mechanisms of SSR activity were studied previously in much detail, allowing the identification of its binding site, located in the hydrophobic groove of the receptor D3 domain. The binding site overlaps with the position of an N‐terminal helix, an element exclusive for the FGF8b growth factor, which could potentially convert SSR from an allosteric inhibitor into an orthosteric blocker for the particular FGFR/FGF8b system. In this regard, we report here on the structural and functional investigation of FGF8b/FGFR3c system and the effects imposed on it by SSR. We show that SSR is equally or more potent in inhibiting FGF8b‐induced FGFR signaling compared to FGF2‐induced activation. On the other hand, when studied in the context of separate extracellular domains of FGFR3c in solution with NMR spectroscopy, SSR is unable to displace the N‐terminal helix of FGF8b from its binding site on FGFR3c and behaves as a weak orthosteric inhibitor. The substantial inconsistency between the results obtained with cell culture and for the individual water‐soluble subdomains of the FGFR proteins points to the important role played by the cell membrane.