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Tan, Y.V. et al.

Peptide Agonist Docking in the N-terminal Ectodomain of a Class II G Protein-coupled Receptor, the VPAC1 Receptor: PHOTOAFFINITY, NMR, AND MOLECULAR MODELING.

The neuropeptide vasoactive intestinal peptide (VIP) strongly impacts on human pathophysiology and does so through interaction with class II G protein- coupled receptors named VIP pituitary adenylate cyclase- activating peptide (PACAP) receptors (VPACs). The molecular nature of VIP binding to receptors remains elusive. In this work, we have docked VIP in the human VPAC1 receptor by the following approach. (i) VIP probes containing photolabile residues in positions 6, 22, and 24 of VIP were used to photolabel the receptor. After receptor cleavage and Edman sequencing of labeled receptor fragments, it was shown that Phe(6), Tyr(22), and Asn(24) of VIP are in contact with Asp(107), Gly(116), and Cys(122) in the N-terminal ectodomain (N-ted) of the receptor, respectively. (ii) The structure of VIP was determined by NMR showing a central alpha helix, a disordered N-terminal His(1)-Phe(6) segment and a 3(10) Ser(25)-Asn(28) helix termination. (iii) A three-dimensional model of the N-ted of hVPAC1 was constructed by using the NMR structure of the N-ted of corticotropin-releasing factor receptor 2beta as a template. As expected, the fold is identified as a short consensus repeat with two antiparallel beta sheets and is stabilized by three disulfide bonds. (iv) Taking into account the constraints provided by photoaffinity, VIP was docked into the hVPAC1 receptor N-ted. The 6-28 fragment of VIP nicely lies in the N-ted C-terminal part, but the N terminus region of VIP is free for interacting with the receptor transmembrane region. The data provide a structural rationale to the proposed two-step activation mechanism of VPAC receptor and more generally of class II G protein-coupled receptors.[1]

References

Peptide Agonist Docking in the N-terminal Ectodomain of a Class II G Protein-coupled Receptor, the VPAC1 Receptor: PHOTOAFFINITY, NMR, AND MOLECULAR MODELING. Tan, Y.V., Couvineau, A., Murail, S., Ceraudo, E., Neumann, J.M., Lacapère, J.J., Laburthe, M. J. Biol. Chem. (2006) [Pubmed]

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