Abstract
Follicle-stimulating hormone receptor (FSHR) is a G-protein coupled receptor (GPCR) and a prototype of the glycoprotein hormone receptors subfamily of GPCRs. Structural data of the FSHR ectodomain in complex with follicle-stimulating hormone suggests a “pull and lift” activation mechanism that triggers a conformational change on the seven α-helix transmembrane domain (TMD). To analyze the conformational changes of the FSHR TMD resulting from sequence variants associated with reproductive impairment in humans, we set up a computational approach combining helix modeling and molecular simulation methods to generate conformational ensembles of the receptor at room (300 K) and physiological (310 K) temperatures. We examined the receptor dynamics in an explicit membrane environment of polyunsaturated phospholipids and solvent water molecules. The analysis of the conformational dynamics of the functional (N680 and S680) and dysfunctional (mutations at D408) variants of the FSHR allowed us to validate the FSHR-TMD model. Functional variants display a concerted motion of flexible intracellular regions at TMD helices 5 and 6. Disruption of side chain interactions and conformational dynamics were detected upon mutation at D408 when replaced with alanine, arginine, or tyrosine. Dynamical network analysis confirmed that TMD helices 2 and 5 may share communication pathways in the functional FSHR variants, whereas no connectivity was detected in the dysfunctional mutants, indicating that the global dynamics of the FSHR was sensitive to mutations at amino acid residue 408, a key position apparently linked to misfolding and variable cell surface plasma membrane expression of FSHRs with distinct mutations at this position.
Highlights
Follicle-stimulating hormone (FSH) or follitropin is a glycoprotein hormone synthesized by the anterior pituitary gland
The activation mechanism of the FSH receptor (FSHR) relies on a complex conformational change and interaction of the ectodomain (FSHRED) with the transmembrane domain (TMD), which occurs via the hinge region [4]
The interhelical water molecules play an important role in the function of membrane receptors; on the one hand, the receptor binding pocket is accessible from the extracellular side and forms a communicating channel toward the intracellular side and, on the other, hydration of side chains promotes the formation of hydrogen bonds that may be important for the conformational dynamics of the receptor [61]
Summary
Follicle-stimulating hormone (FSH) or follitropin is a glycoprotein hormone synthesized by the anterior pituitary gland. By binding to and activating its cognate receptor, the FSH receptor (FSHR), this hormone plays a key role in the control of gonadal function. As other structurally related glycoprotein hormone receptors, the luteinizing hormone-chorionic gonadotropin receptor (LHCGR) and the thyroid-stimulating hormone receptor (TSHR), the FSHR is composed of a large NH2-terminal extracellular domain or ectodomain, where recognition and binding of its cognate ligand occur [2]. The COOH-terminal end of the ectodomain includes the signal specificity subdomain or hinge region, which structurally links the leucine-rich ectodomain with the seven α-helix transmembrane (TM) domain (TMD). The activation mechanism of the FSHR relies on a complex conformational change and interaction of the ectodomain (FSHRED) with the TMD, which occurs via the hinge region [4]. The TMD ends with a carboxyl-terminal extension (Ctail) at the cytoplasmic side, which contains several motifs and residues important for receptor trafficking and function [2]
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