par Gourlet, Philippe 
;Vilardaga, Jean-Pierre ;De Neef, Philippe ;Waelbroeck, Magali ;Vandermeers, André ;Robberecht, Patrick
Référence Peptides, 17, 5, page (825-829)
Publication Publié, 1996
;Vilardaga, Jean-Pierre ;De Neef, Philippe ;Waelbroeck, Magali ;Vandermeers, André ;Robberecht, Patrick Référence Peptides, 17, 5, page (825-829)
Publication Publié, 1996
Article révisé par les pairs
| Résumé : | C-terminally truncated secretin and VIP molecules were synthesized, and their ability to occupy the recombinant secretin and VIP1 receptors stably expressed in Chinese hamster ovary (CNO) cells and to stimulate adenylate cyclase activity was studied. On secretin receptors, secretin (1-26) and secretin (1-24) were 10- and 50-fold less potent but as efficient as secretin (1-27); VIP(1-27) was as potent and efficient as VIP(1-28), and VIP(1-26) and VIP(1-25) were both 100-fold less potent. On VIP1 receptor, VIP(1-28) and VIP(1-27) were equipotent and VIP(1-26) and VIP(1-25) were 10- and 300-ford less potent, respectively; secretin(1-27) and secretin(1-26) were of equally low affinity and 10-fold more potent than secretin(1-24). Thus, the secretin and the VIP1 receptors had different selectivity profiles for the recognition of C-terminally truncated secretin and VIP derivatives. The chimeric receptors consisting in the N-terminal part of the secretin receptor on the core of the VIP1 receptor (N-Sn/VIP1.r) and in the N-terminal part of the VIP1 receptor on the core of the secretin receptor (N-VIP1/Sn.r) exhibited the selectivity pattern of the secretin and VIP1 receptors, respectively. The results suggest that the C-terminal end of secretin and VIP interacts with the N-terminal domain of the secretin and VIP receptors. |
