Association of beta-agonists with corresponding beta 2- and beta 1-adrenergic pentapeptide sequences.

W F Schmidt, R M Waters, A D Mitchell, J D Warthen, I L Honigberg, H Van Halbeek
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Abstract

Synthesized beta 1- and beta 2-pentapeptide sequences corresponding to published adrenoceptor transmembrane activation site subtypes were investigated in vitro for selectivity in association for drug ligands of known selectivity. Both nuclear magnetic resonance spectroscopy and molecular mechanics demonstrated that structural differences among the corresponding pentapeptide activation-site sequences can explain agonist selectivity. Results suggest the agonists bind across the activation site loop on the second transmembrane alpha-helix by dipole/dipole interactions between a ligand and the peptide. Since electrostatic interactions within the membrane may determine the rate of intercellular ion flux, agonist association across the activation site sequence could thereby decrease electrostatic resistance to positive ion flux into the cell. Interactions between the peptides and the ligands may provide insight into the structures and mechanisms involved in association of ligands for the identical sequences on the beta-adrenoreceptors.

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受体激动剂与相应的β 2-和β 1-肾上腺素能五肽序列的关联。
合成的与已发表的肾上腺素能受体跨膜激活位点亚型相对应的β 1-和β 2-五肽序列在体外研究了已知选择性药物配体的选择性。核磁共振波谱和分子力学均表明,相应五肽激活位点序列的结构差异可以解释激动剂的选择性。结果表明,受体激动剂通过配体和肽之间的偶极子/偶极子相互作用结合在第二跨膜α -螺旋的激活位点环上。由于膜内的静电相互作用可以决定细胞间离子通量的速率,因此激活位点序列上的激动剂结合可以降低对进入细胞的正离子通量的静电阻力。多肽与配体之间的相互作用可以为β -肾上腺素受体上相同序列的配体结合的结构和机制提供深入的了解。
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