ABSTRACT: The peptide hormone amylin receptor is a complex of the calcitonin receptor (CTR) and an accessory protein called receptor activity-modifying proteins (RAMPs). The soluble extracellular domain (ECD) of CTR is an important binding site of peptide hormone calcitonin. RAMPs also have an ECD and the association of CTR ECD with RAMP ECD enhances the affinity of peptide hormone amylin. However, the mechanism of how RAMP ECD association enhances amylin affinity remains elusive. Here, we report evidence supporting direct molecular interaction between an antagonistic amylin analog AC413 and RAMP2 ECD. We measured FITC-labeled peptide affinity for purified receptor ECD using fluorescence polarization (FP). We first found that RAMP2 ECD addition to maltose-binding protein (MBP)-tagged CTR ECD and an engineered MBP-tagged RAMP2 ECD-CTR ECD fusion protein (MBP-RAMP2-CTR ECD fusion) enhanced AC413 affinity. This suggests that these recombinant ECD systems represent functional amylin receptors. Interestingly, AC413 C-terminal residue Tyr25 (Y25) to Pro mutation eliminated its selective affinity for the MBP-RAMP2-CTR ECD fusion suggesting the critical role of the AC413 C-terminal residue in amylin receptor selectivity. Our structural model of the RAMP2 ECD:CTR ECD complex predicted molecular interaction of AC413 C-terminal residue Y25 with RAMP2 Glu101 (E101). Our FP peptide-binding assay showed that the RAMP2 E101A mutation of MBP-RAMP2-CTR ECD fusion decreased AC413 affinity by 7-fold, while the affinity of AC413 with the Y25P mutation was minimally changed. Consistently, AC413 binding affinity for the MBP-free RAMP2-CTR ECD fusion protein was also markedly decreased by the RAMP2 E101A mutation, while the affinity of AC413 with the Y25P mutation was moderately decreased. Together, our results support the molecular interaction between the AC413 C-terminal residue Y25 and RAMP2 E101 expanding our understanding of how the accessory protein RAMP2 enhances affinity of peptide hormone amylin for its receptor.