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使用[3H]阿扑吗啡和一种抗精神病药物研究人和小牛大脑中的多巴胺受体。

Dopamine receptors in human and calf brains, using [3H]apomorphine and an antipsychotic drug.

作者信息

Seeman P, Chau-Wong M, Tedesco J, Wong K

出版信息

Proc Natl Acad Sci U S A. 1976 Dec;73(12):4354-8. doi: 10.1073/pnas.73.12.4354.

DOI:10.1073/pnas.73.12.4354
PMID:12505
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC431452/
Abstract

In order to develop a better dopamine receptor radioligand, [3H[apomorphine was prepared and tested for dopamine-like binding properties in both calf and human brain tissues. Specific binding of [3H]apomorphine was defined as that binding which occurred in the presence of 1 muM (-)-butaclamol (an inactive neuroleptic) minus that occurring in the presence of 1 muM (+)-butaclamol (active neuroleptic). The specific binding was saturable, the number of sites being double that of specific [3H]dopamine binding, and occurred primarily in dopamine-rich regions of postmortem human brains. The binding had a dissociation constant of 0.9 nM for human caudate (2 nM for calf caudate) and was blocked by dopamine and norepinephrine, but not by isoproterenol or (-)-propranolol, distinguishing it from a beta-adrenergic receptor. Since there was little desorption of [3H]apomorphine, the ligand permits extensive washing during routine assays for dopamine receptors, and facilitates biochemical purification of the receptor.

摘要

为了开发一种更好的多巴胺受体放射性配体,制备了[³H]阿扑吗啡并在小牛和人类脑组织中测试其多巴胺样结合特性。[³H]阿扑吗啡的特异性结合定义为在1 μM(-)-布他拉莫(一种无活性的抗精神病药物)存在下发生的结合减去在1 μM(+)-布他拉莫(活性抗精神病药物)存在下发生的结合。特异性结合是可饱和的,其位点数量是特异性[³H]多巴胺结合位点数量的两倍,并且主要发生在死后人类大脑中富含多巴胺的区域。该结合对人类尾状核的解离常数为0.9 nM(对小牛尾状核为2 nM),并且被多巴胺和去甲肾上腺素阻断,但不被异丙肾上腺素或(-)-普萘洛尔阻断,这使其与β-肾上腺素能受体区分开来。由于[³H]阿扑吗啡几乎没有解吸附,该配体允许在多巴胺受体的常规测定过程中进行大量洗涤,并有助于受体的生化纯化。

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