Structural Insights into GHRHR: A Roadmap for Precision Therapeutics
en-GBde-DEes-ESfr-FR

Structural Insights into GHRHR: A Roadmap for Precision Therapeutics

24.04.2026 HEP Journals
The research presented in "Structural basis of human GHRHR conformational plasticity and ligand-dependent signaling" provides a groundbreaking look at the Growth Hormone-Releasing Hormone Receptor (GHRHR), a Class B1 G protein-coupled receptor (GPCR) vital for growth and metabolism. While traditional models have struggled to capture the dynamic nature of such receptors, this study utilizes high-resolution cryogenic electron microscopy (cryo-EM) and molecular dynamics (MD) simulations to map the receptor's structural landscape across multiple functional states.
The core objective of the research is to understand how GHRHR adapts its structure to prefer specific signaling pathways when stimulated by different ligands. The study successfully resolved the structures of the receptor in its ligand-free (Apo) active state, its state bound to a small-molecule allosteric agonist (PCO371), and its inactive state bound to a peptidic antagonist (MIA-602).
A key innovation is the discovery of how PCO371, an allosteric agonist, binds to a unique intracellular site. Unlike traditional agonists that trigger reorganization from the extracellular side, PCO371 stabilizes the active interface from within, providing a structural basis for "biased signaling"—the ability of a receptor to activate one intracellular pathway over another. Conversely, the antagonist MIA-602 was found to lock the receptor in an inactive conformation by pinning a conserved "HETY" motif, effectively preventing the structural movements required for G protein engagement.
The implications for drug discovery are significant. By providing an atomic-level template of these "on" and "off" states, the study paves the way for the design of precision therapeutics. These could include highly selective agonists to treat growth hormone deficiency and dwarfism, or potent antagonists to combat hormone-dependent tumors and acromegaly. Ultimately, this research transforms our understanding of GPCR signaling from static snapshots into a dynamic, actionable framework for drug development.
DOI:10.1093/procel/pwag016
https://doi.org/10.1093/procel/pwag016
Angehängte Dokumente
  • Using cryo-EM and molecular dynamics simulation, this study reveals three functional states of GHRHR: the ligand-free (Apo) and the allosteric agonist PCO371-bound Gs-coupled active states, and the antagonist MIA-602-bound inactive state, illuminating ligand-specific conformational adaptation.
24.04.2026 HEP Journals
Regions: Asia, China
Keywords: Science, Life Sciences

Disclaimer: AlphaGalileo is not responsible for the accuracy of content posted to AlphaGalileo by contributing institutions or for the use of any information through the AlphaGalileo system.

Referenzen

We have used AlphaGalileo since its foundation but frankly we need it more than ever now to ensure our research news is heard across Europe, Asia and North America. As one of the UK’s leading research universities we want to continue to work with other outstanding researchers in Europe. AlphaGalileo helps us to continue to bring our research story to them and the rest of the world.
Peter Dunn, Director of Press and Media Relations at the University of Warwick
AlphaGalileo has helped us more than double our reach at SciDev.Net. The service has enabled our journalists around the world to reach the mainstream media with articles about the impact of science on people in low- and middle-income countries, leading to big increases in the number of SciDev.Net articles that have been republished.
Ben Deighton, SciDevNet
AlphaGalileo is a great source of global research news. I use it regularly.
Robert Lee Hotz, LA Times

Wir arbeiten eng zusammen mit...

  • The Research Council of Norway
  • SciDevNet
  • Swiss National Science Foundation
  • iesResearch
Copyright 2026 by DNN Corp Terms Of Use Privacy Statement