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大麻素 CB1 受体和多巴胺 D2 受体域的描绘,介导异二聚体复合物的形成。

Delineation of domains within the cannabinoid CB1 and dopamine D2 receptors that mediate the formation of the heterodimer complex.

机构信息

Faculty of Health Sciences, Simon Fraser University, Burnaby, British Columbia, V5A 1S6, Canada.

出版信息

J Mol Neurosci. 2014 May;53(1):10-21. doi: 10.1007/s12031-013-0181-7. Epub 2013 Nov 22.

DOI:10.1007/s12031-013-0181-7
PMID:24264530
Abstract

Both the cannabinoid CB1 receptor (CB1) and dopamine D2 receptor (D2R) are G protein-coupled receptors that are linked to inhibitory Gαi/o protein, whereby activation of the receptor leads to the inhibition of cAMP production. Moreover, previous findings have shown evidence of cross-talk between the dopamine and endocannabinoid systems. In this report, we confirm the interaction of CB1 and D2R with co-immunoprecipitation experiments using human embryonic kidney 293T (HEK-293T) cells co-expressing both receptors. We also generated GST and His-tagged fusion proteins of the D2R and CB1 and conducted affinity purification assays and in vitro binding experiments to show that the CB1-D2R complex can be formed by a direct protein-protein interaction. This interaction is mediated by the carboxyl terminus of the CB1 receptor and the third intracellular loop of the D2 receptor. Co-transfection of an inhibitory mini-gene resulted in decreased levels of the CB1-D2R complex. Using a cAMP biosensor, we show that activation of D2R or CB1 alone in HEK-293T cells co-expressing both receptors leads to an inhibition of forskolin-stimulated cAMP accumulation. However, co-activation of both receptors resulted in a loss of this inhibition on cAMP accumulation. Our findings characterize the physical interaction between CB1 and D2R as well as demonstrate the potential functional outcome of the receptor complex.

摘要

大麻素 CB1 受体 (CB1) 和多巴胺 D2 受体 (D2R) 均为 G 蛋白偶联受体,与抑制性 Gαi/o 蛋白相连,受体的激活会导致 cAMP 生成的抑制。此外,先前的研究结果表明多巴胺和内源性大麻素系统之间存在串扰。在本报告中,我们使用共表达这两种受体的人胚肾 293T(HEK-293T)细胞通过共免疫沉淀实验证实了 CB1 和 D2R 之间的相互作用。我们还生成了 D2R 和 CB1 的 GST 和 His 标记融合蛋白,并进行了亲和纯化测定和体外结合实验,以表明 CB1-D2R 复合物可以通过直接的蛋白-蛋白相互作用形成。这种相互作用是由 CB1 受体的羧基末端和 D2 受体的第三细胞内环介导的。抑制性微型基因的共转染导致 CB1-D2R 复合物的水平降低。使用 cAMP 生物传感器,我们表明,在共表达这两种受体的 HEK-293T 细胞中,单独激活 D2R 或 CB1 会导致 forskolin 刺激的 cAMP 积累受到抑制。然而,同时激活这两个受体导致 cAMP 积累的这种抑制作用丧失。我们的研究结果描述了 CB1 和 D2R 之间的物理相互作用,并证明了受体复合物的潜在功能结果。

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