Constitutive Activating Eel Luteinizing Hormone Receptors Induce Constitutively Signal Transduction and Inactivating Mutants Impair Biological Activity.

Development & reproduction Pub Date : 2021-09-01 Epub Date: 2021-09-30 DOI:10.12717/DR.2021.25.3.133
Munkhzaya Byambaragchaa, Seung-Hee Choi, Dong-Wan Kim, Kwan-Sik Min
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引用次数: 4

Abstract

In contrast to the human lutropin receptor (hLHR) and rat LHR (rLHR), very few naturally occurring mutants in other mammalian species have been identified. The present study aimed to delineate the mechanism of signal transduction by three constitutively activating mutants (designated M410T, L469R, and D590Y) and two inactivating mutants (D383N and Y546F) of the eel LHR, known to be naturally occurring in human LHR transmembrane domains. The mutants were constructed and measured cyclic adenosine monophosphate (cAMP) accumulation via homogeneous time-resolved fluorescence assays in Chinese hamster ovary (CHO)-K1 cells. The activating mutant cells expressing eel LHR-M410T, L469R, and D590Y exhibited a 4.0-, 19.1-, and 7.8-fold increase in basal cAMP response without agonist treatment, respectively. However, inactivating mutant cells expressing D417N and Y558F did not completely impaired signal transduction. Specifically, signal transduction in the cells expressing activating mutant L469R was not occurred with a further ligand stimulation, showing that the maximal response exhibited approximately 53% of those of wild type receptor. Our results suggested that the constitutively activating mutants of the eel LHR consistently occurred without agonist treatment. These results provide important information of LHR function in fish and regulation with regard to mutations of highly conserved amino acids in glycoprotein hormone receptors.

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组成激活黄体生成素受体诱导组成信号转导,灭活突变体损害生物活性。
与人类lutropin受体(hLHR)和大鼠LHR (rLHR)相比,在其他哺乳动物物种中很少发现自然发生的突变体。本研究旨在描述鳗鱼LHR的三个组成激活突变体(指定为M410T, L469R和D590Y)和两个灭活突变体(D383N和Y546F)的信号转导机制,已知这些突变体自然存在于人类LHR跨膜结构域。构建突变体,并通过均匀时间分辨荧光法测定中国仓鼠卵巢(CHO)-K1细胞中环磷酸腺苷(cAMP)的积累。在没有激动剂治疗的情况下,表达鳗鱼LHR-M410T、L469R和D590Y的激活突变细胞的基础cAMP反应分别增加了4.0倍、19.1倍和7.8倍。然而,失活表达D417N和Y558F的突变细胞并没有完全破坏信号转导。具体来说,在表达激活突变体L469R的细胞中,进一步的配体刺激不会发生信号转导,表明其最大反应约为野生型受体的53%。我们的研究结果表明,在没有激动剂治疗的情况下,鳗鱼LHR的组成型激活突变体始终发生。这些结果提供了鱼类LHR功能和糖蛋白激素受体中高度保守氨基酸突变调控的重要信息。
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