An arginyl in the N-terminus of the V1a vasopressin receptor is part of the conformational switch controlling activation by agonist.

Stuart R Hawtin, Victoria J Wesley, John Simms, Rosemary A Parslow, Alice Miles, Kim McEwan, Mary Keen, Mark Wheatley
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引用次数: 7

Abstract

Defining how the agonist-receptor interaction differs from that of the antagonist-receptor and understanding the mechanisms of receptor activation are fundamental issues in cell signalling. The V1a vasopressin receptor (V1aR) is a member of a family of related G-protein coupled receptors that are activated by neurohypophysial peptide hormones, including vasopressin (AVP). It has recently been reported that an arginyl in the distal N-terminus of the V1aR is critical for binding agonists but not antagonists. To determine specific features required at this locus to support high affinity agonist binding and second messenger generation, Arg46 was substituted by all other 19 encoded amino acids. Our data establish that there is an absolute requirement for arginyl, as none of the [R46X]V1aR mutant constructs supported high affinity agonist binding and all 19 had defective signalling. In contrast, all of the mutant receptors possessed wildtype binding for both peptide and nonpeptide antagonists. The ratio of Ki to EC50, an indicator of efficacy, was increased for all substitutions. Consequently, although [R46X]V1aR constructs have a lower affinity for agonist, once AVP has bound all 19 are more likely than the wildtype V1aR to become activated. Therefore, in the wildtype V1aR, Arg46 constrains the inactive conformation of the receptor. On binding AVP this constraint is alleviated, promoting the transition to active V1aR. Our findings explain why arginyl is conserved at this locus throughout the evolutionary lineage of the neurohypophysial peptide hormone receptor family of G-protein coupled receptors.

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V1a抗利空激素受体n端的精氨酸基是控制激动剂激活的构象开关的一部分。
定义激动剂-受体相互作用与拮抗剂-受体相互作用的区别以及理解受体激活的机制是细胞信号传导中的基本问题。V1a抗利尿激素受体(V1aR)是相关g蛋白偶联受体家族的成员,可被神经垂体肽激素激活,包括抗利尿激素(AVP)。最近有报道称,V1aR远端n端的精氨酸对结合激动剂而非拮抗剂至关重要。为了确定该位点支持高亲和力激动剂结合和第二代信使所需的特定特征,Arg46被其他19个编码氨基酸所取代。我们的数据证实了精氨酸的绝对需求,因为没有一个[R46X]V1aR突变体结构支持高亲和力激动剂结合,并且所有19个突变体都有信号缺陷。相比之下,所有突变受体对肽和非肽拮抗剂都具有野生型结合。Ki与EC50的比值(药效指标)在所有替代中均有所提高。因此,尽管[R46X]V1aR构建体对激动剂的亲和力较低,但一旦AVP结合,所有19种V1aR都比野生型V1aR更有可能被激活。因此,在野生型V1aR中,Arg46限制了受体的无活性构象。在结合AVP上,这种约束得到缓解,促进向活性V1aR的过渡。我们的发现解释了为什么精氨酸在整个g蛋白偶联受体的神经垂体肽激素受体家族的进化谱系中都是保守的。
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