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Structural and mechanistic insights into dual activation of cagrilintide in amylin and calcitonin receptors.

Acta Pharmacol Sin · 2025

Last updated 2026-07-12
JournalActa Pharmacol Sin, 2025
Citations0
Molecules cagrilintide

Abstract

The global obesity epidemic and its associated metabolic disorders urgently require more effective therapeutic interventions, particularly multi-pathway targeting therapies. Cagrilintide (Cagri), functioning as a dual amylin receptor (AMYRs) and calcitonin receptor (CTR) agonist (DACRA), demonstrates significant efficacy in obesity treatment, although its structural activation mechanism remains unclear. This study elucidates the non-selective activation mechanism by determining cryo-EM structures of Cagri bound to AMYR-G and CTR-G complexes. Cagri adopts similar "bypass" binding modes in both receptors, which is distinct from other existing DACRAs that primarily achieve extended half-life through N-terminal lipid modification. Key molecular features include the F23 residue anchoring the peptide at the receptor transmembrane (TM) bundle level and the micelle, an E14-R17 intramolecular salt bridge enhancing helical stability, and C-terminal P37 interaction with the receptor ECD. These features collectively enable non-specific binding and activation across different receptors. Both structural and functional analyses revealed Cagri's non-selective activation of G signaling pathways through CTR and AMYR. These findings provide a comprehensive structural framework for developing next-generation anti-obesity drugs based on dual receptor activation mechanisms.

Verbatim abstract via PubMed 40847076 ↗

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