多巴胺 D1 和 D2 受体胞质区的每个氨基酸都参与 D1-D2 异源二聚体的形成。
Two amino acids in each of D1 and D2 dopamine receptor cytoplasmic regions are involved in D1-D2 heteromer formation.
机构信息
Centre for Addiction and Mental Health, University of Toronto, Toronto, Ontario, Canada.
出版信息
Biochem Biophys Res Commun. 2012 Jan 6;417(1):23-8. doi: 10.1016/j.bbrc.2011.11.027. Epub 2011 Nov 12.
Abstract
D(1) and D(2) dopamine receptors exist as heteromers in cells and brain tissue and are dynamically regulated and separated by agonist concentrations at the cell surface. We determined that these receptor pairs interact primarily through discrete amino acids in the cytoplasmic regions of each receptor, with no evidence of any D(1)-D(2) receptor transmembrane interaction found. Specifically involved in heteromer formation we identified, in intracellular loop 3 of the D(2) receptor, two adjacent arginine residues. Substitution of one of the arginine pair prevented heteromer formation. Also involved in heteromer formation we identified, in the carboxyl tail of the D(1) receptor, two adjacent glutamic acid residues. Substitution of one of the glutamic acid pair prevented heteromer formation. These amino acid pairs in D(1) and D(2) receptors are oppositely charged, and presumably interact directly by electrostatic interactions.
摘要
D(1) 和 D(2) 多巴胺受体以异源二聚体的形式存在于细胞和脑组织中,并通过细胞表面激动剂浓度进行动态调节和分离。我们确定这些受体对主要通过每个受体细胞质区域中的离散氨基酸相互作用,没有发现任何 D(1)-D(2)受体跨膜相互作用的证据。我们确定在 D(2)受体的细胞内环 3 中,两个相邻的精氨酸残基参与异源二聚体的形成。其中一个精氨酸对的取代阻止了异源二聚体的形成。我们还确定在 D(1)受体的羧基尾部,两个相邻的谷氨酸残基参与异源二聚体的形成。其中一个谷氨酸对的取代阻止了异源二聚体的形成。D(1) 和 D(2) 受体中的这些氨基酸对带相反电荷,推测通过静电相互作用直接相互作用。
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