蓝斑中l-乳酸信号传导的推定受体

V. Mosienko, Seyed M. A. Rasooli-Nejad, K. Kishi, M. D. De Both, D. Jane, M. Huentelman, S. Kasparov, A. Teschemacher
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引用次数: 16

摘要

星形胶质细胞l-乳酸(LL)对神经回路正常功能的重要性,如调节学习/记忆、睡眠/清醒状态、自主内稳态或情绪行为的神经回路,正日益被认识到。l-乳酸盐可以作为代谢或氧化还原底物作用于神经元,但跨膜受体靶点也正在出现。对羟基羧酸受体(HCA1,以前称为GPR81)、嗅觉受体家族51亚家族E成员2 (OR51E2)和孤儿受体GPR4的比较综述强调了它们在LL敏感性、药理学、细胞内偶联和大脑定位方面的差异。此外,我们先前假设的去甲肾上腺素能神经元上的gs偶联受体LLRx仍有待确定。下一代测序揭示了蓝斑神经元中表达的几个孤儿受体。筛选这些选择表明额外的LL敏感受体:GPR180抑制和GPR137激活细胞内环AMP信号在异源表达系统中响应LL。为了进一步表征LL在LLRx上的结合,我们进行了一项结构-活性关系研究,该研究表明LL的羧基和2-羟基部分对于触发蓝斑中d-乳酸敏感的去甲肾上腺素释放至关重要,并且LL结合口袋的大小仅限于甲基位置。迄今为止积累的证据表明,LL通过多个受体靶点来调节不同的大脑功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Putative Receptors Underpinning l-Lactate Signalling in Locus Coeruleus
The importance of astrocytic l-lactate (LL) for normal functioning of neural circuits such as those regulating learning/memory, sleep/wake state, autonomic homeostasis, or emotional behaviour is being increasingly recognised. l-Lactate can act on neurones as a metabolic or redox substrate, but transmembrane receptor targets are also emerging. A comparative review of the hydroxy-carboxylic acid receptor (HCA1, formerly known as GPR81), Olfactory Receptor Family 51 Subfamily E Member 2 (OR51E2), and orphan receptor GPR4 highlights differences in their LL sensitivity, pharmacology, intracellular coupling, and localisation in the brain. In addition, a putative Gs-coupled receptor on noradrenergic neurones, LLRx, which we previously postulated, remains to be identified. Next-generation sequencing revealed several orphan receptors expressed in locus coeruleus neurones. Screening of a selection of these suggests additional LL-sensitive receptors: GPR180 which inhibits and GPR137 which activates intracellular cyclic AMP signalling in response to LL in a heterologous expression system. To further characterise binding of LL at LLRx, we carried out a structure–activity relationship study which demonstrates that carboxyl and 2-hydroxyl moieties of LL are essential for triggering d-lactate-sensitive noradrenaline release in locus coeruleus, and that the size of the LL binding pocket is limited towards the methyl group position. The evidence accumulating to date suggests that LL acts via multiple receptor targets to modulate distinct brain functions.
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