par Perret, Jason 
;Van Craenenbroeck, Mélanie ;Langer, Ingrid ;Vertongen, Pascale ;Grégoire, Françoise ;Robberecht, Patrick ;Waelbroeck, Magali
Référence Biochemical journal, 362, Pt 2, page (389-394)
Publication Publié, 2002-03
;Van Craenenbroeck, Mélanie ;Langer, Ingrid ;Vertongen, Pascale ;Grégoire, Françoise ;Robberecht, Patrick ;Waelbroeck, Magali Référence Biochemical journal, 362, Pt 2, page (389-394)
Publication Publié, 2002-03
Article révisé par les pairs
| Résumé : | Receptor recognition by the Asp(3) residues of vasoactive intestinal peptide and secretin requires the presence of a lysine residue close to the second transmembrane helix (TM2)/first extracellular loop junction and an ionic bond with an arginine residue in TM2. We tested whether the glucagon Gln(3) residue recognizes the equivalent positions in its receptor. Our data revealed that the binding and functional properties of the wild-type glucagon receptor and the K188R mutant were not significantly different, whereas all agonists had markedly lower potencies and affinities at the I195K mutated receptor. In contrast, glucagon was less potent and the Asp(3)-, Asn(3)- and Glu(3)-glucagon mutants were more potent and efficient at the double-mutated K188R/I195K receptor. Furthermore, these alterations were selective for position 3 of glucagon, as shown by the functional properties of the mutant Glu(9)- and Lys(15)-glucagon. Our results suggest that although the Gln(3) residue of glucagon did not interact with the equivalent binding pocket as the Asp(3) residue of vasoactive intestinal peptide or secretin, the Asp(3)-glucagon analogue was able to interact with position 188 of the K188R/I195K glucagon receptor. Nevertheless, the Gln(3) side chain of glucagon probably binds very close to this region in the wild-type receptor. |
