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  • Title: Conformational and molecular modeling studies of beta-cyclodextrin-heptagastrin and the third extracellular loop of the cholecystokinin 2 receptor.
    Author: Giragossian C, Schaschke N, Moroder L, Mierke DF.
    Journal: Biochemistry; 2004 Mar 16; 43(10):2724-31. PubMed ID: 15005607.
    Abstract:
    The conformational features of a conjugate of the C-terminus of human gastrin (HG[11-17]), the shortest gastrin sequence retaining biological function, with beta-cyclodextrin ([Nle(15)]-HG[11-17]-betaCD) were determined by NMR spectroscopy in an aqueous solution of dodecylphosphocholine (DPC) micelles. The peptide-betaCD conjugate displays a binding affinity and activation profile comparable to those of HG[11-17] at the cholecysokinin 2 (CCK(2)) receptor, the G protein-coupled receptor responsible for the gastrointestinal function of gastrin. The structure of the peptide consisted of a well-defined beta-turn between Gly(13) and Asp(16) of gastrin. The structural preferences of [Nle(15)]-HG[11-17]-betaCD in DPC micelles and the 5-doxylstearate-induced relaxation of the (1)H NMR resonances support a membrane-associated receptor recognition mechanism. Addition of [Nle(15)]-HG[11-17]-betaCD to the third extracellular loop domain of the CCK(2) receptor, CCK(2)-R(352-379), generated a number of intermolecular nuclear Overhauser enhancements (NOEs) and chemical shift perturbations. NOE-restrained MD simulations of the [Nle(15)]-HG[11-17]-betaCD-CCK(2)-R complex produced a topological orientation in which the C-terminus was located in a shallow hydrophobic pocket near the confluence of TM2 and -3. Despite the steric bulk and physicochemical properties of betaCD, the [Nle(15)]-HG[11-17]-betaCD-CCK(2)-R complex is similar to the CCK-8-CCK(2)-R complex determined previously, providing insight into the mode of ligand binding and the role of electrostatic interactions.
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