人κ阿片受体的第二个细胞外环提高强啡肽对人μ/κ嵌合体的亲和力。

Human kappa opiate receptor second extracellular loop elevates dynorphin's affinity for human mu/kappa chimeras.

作者信息

Wang J B, Johnson P S, Wu J M, Wang W F, Uhl G R

机构信息

Molecular Neurobiology Branch, National Institute on Drug Abuse, Baltimore, Maryland.

出版信息

J Biol Chem. 1994 Oct 21;269(42):25966-9.

PMID:7929306

Abstract

To investigate roles of second extracellular loop sequences in peptide and nonpeptide ligand recognition by human opiate receptors, we have constructed a chimeric receptor in which this domain of the human mu opiate receptor has been replaced with that of the human kappa opiate receptor. The chimeric opiate receptor displays dramatically increased affinity for dynorphin peptides. Affinities for dynorphin A-(1-17), dynorphin A-(1-13), and alpha-neoendorphin increase by up to 250-fold when compared with the wild-type human mu opiate receptor. The chimera maintains recognition of the mu-selective ligands morphine and [D-Ala2,MePhe4,Gly-ol5]enkephalin and displays no significant changes in affinity for the kappa-selective small molecule ligand U50,488. The chimeric opiate receptor displays evidence for effective G-protein coupling; 100 nM dynorphin A-(1-17) is as effective as 100 nM morphine at inhibiting forskolin-stimulated adenyl cyclase activity through actions at the chimeric receptor. These data suggest that the putative second extracellular loop contributes substantially to the kappa receptor's selectivity in dynorphin ligand recognition.

摘要

为了研究人阿片受体第二细胞外环序列在肽和非肽配体识别中的作用，我们构建了一种嵌合受体，其中人μ阿片受体的该结构域已被人κ阿片受体的相应结构域所取代。该嵌合阿片受体对强啡肽肽的亲和力显著增加。与野生型人μ阿片受体相比，对强啡肽A-(1-17)、强啡肽A-(1-13)和α-新内啡肽的亲和力增加了多达250倍。该嵌合体维持了对μ选择性配体吗啡和[D-Ala2,MePhe4,Gly-ol5]脑啡肽的识别，并且对κ选择性小分子配体U50,488的亲和力没有显著变化。该嵌合阿片受体显示出有效的G蛋白偶联的证据；100 nM强啡肽A-(1-17)在通过作用于嵌合受体抑制福斯高林刺激的腺苷酸环化酶活性方面与100 nM吗啡一样有效。这些数据表明，推测的第二细胞外环在强啡肽配体识别中对κ受体的选择性有很大贡献。

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人κ阿片受体的第二个细胞外环提高强啡肽对人μ/κ嵌合体的亲和力。

Human kappa opiate receptor second extracellular loop elevates dynorphin's affinity for human mu/kappa chimeras.

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