人5HT1a受体胞内环2肽是Gi的差异激活因子。

International Journal of Peptides Pub Date : 2012-01-01 Epub Date: 2012-05-09 DOI:10.1155/2012/490734
Brian Hall, Carley Squires, Keith K Parker
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引用次数: 5

摘要

已经研究了人类5HT1a受体胞内环2 (ic2)的肽模拟物,通过干扰受体- g蛋白偶联来抑制激动剂结合的能力。这些肽具有较浅的浓度效应关系。此外,研究人员还研究了这些肽触发gi偶联受体信号转导系统的能力。两个信号参数已被量化:细胞内cAMP的浓度和GTP稳定类似物并入G蛋白的变化。在这两种情况下,ic2中环附近的肽模拟物实际上显示出激动剂活性,其效力在靠近tm3和tm4的环末端都下降。先前的结果表明,TM3/ic2界面附近的环区主要负责受体-G蛋白偶联,而当前的结果强调了ic2中间环区在初始偶联后激活G蛋白的能力。我们还研究了受体TM5/ic3环附近有限数量的肽对激动剂抑制和g蛋白激活的影响。这些肽提供了额外的证据,证明人类5HT1a受体TM5/ic3环区参与了偶联和激活作用。总的来说,这些结果为人类5HT1a受体/ g蛋白系统的潜在药理干预和药物开发提供了进一步的信息。最后,这里产生的结构证据提供了可测试的模型,等待结晶和受体的x射线分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Intracellular Loop 2 Peptides of the Human 5HT1a Receptor are Differential Activators of Gi.

Peptide mimics of intracellular loop 2 (ic2) of the human 5HT1a receptor have been studied with respect to their ability to inhibit agonist binding via interference with receptor-G-protein coupling. These peptides give shallow concentration-effect relationships. Additionally, these peptides have been studied with respect to their ability to trigger the signal transduction system of this Gi-coupled receptor. Two signaling parameters have been quantified: concentration of intracellular cAMP and changes in incorporation into the G protein of a stable analog of GTP. In both cases, peptide mimics near midloop of ic2 actually show agonist activity with efficacy falling off toward both loop termini near TM 3 and TM 4. Previous results have suggested that the loop region near the TM3/ic2 interface is primarily responsible for receptor-G-protein coupling, while the current result emphasizes the mid-ic2 loop region's ability to activate the G protein following initial coupling. A limited number of peptides from the receptor's TM5/ic3 loop vicinity were also studied regarding agonist inhibition and G-protein activation. These peptides provide additional evidence that the human 5HT1a receptor, TM5/ic3 loop region, is involved in both coupling and activation actions. Overall, these results provide further information about potential pharmacological intervention and drug development with respect to the human 5HT1a receptor/G-protein system. Finally, the structural evidence generated here provides testable models pending crystallization and X-ray analysis of the receptor.

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