Mechanism of hormone and allosteric agonist mediated activation of follicle stimulating hormone receptor

Follicle stimulating hormone (FSH) is an essential glycoprotein hormone for human reproduction, which functions are mediated by a G protein-coupled receptor, FSHR. Aberrant FSH-FSHR signaling causes infertility and ovarian hyperstimulation syndrome. Here we report cryo-EM structures of FSHR in both inactive and active states, with the active structure bound to FSH and an allosteric agonist compound 21f. The structures of FSHR are similar to other glycoprotein hormone receptors, highlighting a conserved activation mechanism of hormone-induced receptor activation. Compound 21f formed extensive interactions with the TMD to directly activate FSHR. Importantly, the unique residue H615(7.42) in FSHR plays an essential role in determining FSHR selectivity for various allosteric agonists. Together, our structures provide a molecular basis of FSH and small allosteric agonist-mediated FSHR activation, which could inspire the design of FSHR-targeted drugs for the treatment of infertility and controlled ovarian stimulation for in vitro fertilization. Follicle stimulating hormone (FSH) is a glycoprotein hormone the functions of which are mediated by a G protein-coupled receptor, FSHR. Here, Duan et al. report cryo-EM structures of FSHR in active and inactive states, suggesting the molecular basis of FSH and small allosteric agonist-mediated FSHR activation.

Automated summary

This study presents cryo-EM structures of follicle stimulating hormone receptor (FSHR) in active and inactive states, providing insights into the molecular basis of FSH and small allosteric agonist-mediated FSHR activation. The findings have important implications for the treatment of infertility and in vitro fertilization.