代谢型谷氨酸受体 2 变构拮抗作用的结构决定因素:新型有效负变构调节剂的机制研究。
Structural determinants of allosteric antagonism at metabotropic glutamate receptor 2: mechanistic studies with new potent negative allosteric modulators.
机构信息
Neuroscience Research, F. Hoffmann-La Roche Ltd, Basel, Switzerland.
出版信息
Br J Pharmacol. 2011 Sep;164(2b):521-37. doi: 10.1111/j.1476-5381.2011.01409.x.
BACKGROUND AND PURPOSE
Altered glutamatergic neurotransmission is linked to several neurological and psychiatric disorders. Metabotropic glutamate receptor 2 (mGlu₂) plays an important role on the presynaptic control of glutamate release and negative allosteric modulators (NAMs) acting on mGlu₂/₃ receptors are under assessment for their potential as antidepressants, neurogenics and cognitive enhancers. Two new potent mGlu₂/₃ NAMs, RO4988546 and RO5488608, are described in this study and the allosteric binding site in the transmembrane (TM) domain of mGlu₂ is characterized.
EXPERIMENTAL APPROACH
Site directed mutagenesis, functional measurements and β₂-adrenoceptor-based modelling of mGlu₂ were employed to identify important molecular determinants of two new potent mGlu₂/₃ NAMs.
KEY RESULTS
RO4988546 and RO5488608 affected both [³H]-LY354740 agonist binding at the orthosteric site and the binding of a tritiated positive allosteric modulator (³H-PAM), indicating that NAMs and PAMs could have overlapping binding sites in the mGlu₂ TM domain. We identified eight residues in the allosteric binding pocket that are crucial for non-competitive antagonism of agonist-dependent activation of mGlu₂ and directly interact with the NAMs: Arg³·²⁸, Arg³·²⁹, Phe³·³⁶, His(E2.52) , Leu⁵·⁴³, Trp⁶·⁴⁸, Phe⁶·⁵⁵ and Val⁷·⁴³. The mGlu₂ specific residue His(E2.52) is likely to be involved in selectivity and residues located in the outer part of the binding pocket are more important for [³H]-LY354740 agonist binding inhibition, which is independent of the highly conserved Trp⁶·⁴⁸ residue.
CONCLUSIONS AND IMPLICATIONS
This is the first complete molecular investigation of the allosteric binding pocket of mGlu₂ and Group II mGluRs and provides new information on what determines mGlu₂ NAMs selective interactions and effects.
背景与目的
谷氨酸能神经传递的改变与多种神经和精神疾病有关。代谢型谷氨酸受体 2(mGlu₂)在谷氨酸释放的突触前控制中发挥重要作用,作用于 mGlu₂/₃受体的负变构调节剂(NAMs)正在评估其作为抗抑郁药、神经生成剂和认知增强剂的潜力。本研究描述了两种新的强效 mGlu₂/₃ NAMs,RO4988546 和 RO5488608,并对 mGlu₂跨膜(TM)域中的变构结合位点进行了特征描述。
实验方法
采用定点突变、功能测量和基于β₂-肾上腺素能受体的建模方法,鉴定两种新的强效 mGlu₂/₃ NAMs 的重要分子决定因素。
主要结果
RO4988546 和 RO5488608 影响了 orthosteric 位点的 [³H]-LY354740 激动剂结合和三碘代阳性变构调节剂(³H-PAM)的结合,表明 NAMs 和 PAMs 可能在 mGlu₂ TM 结构域中具有重叠的结合位点。我们鉴定了变构结合口袋中的 8 个残基,这些残基对于激动剂依赖性激活的非竞争性拮抗作用至关重要,并且直接与 NAMs 相互作用:Arg³·²⁸、Arg³·²⁹、Phe³·³⁶、His(E2.52)、Leu⁵·⁴³、Trp⁶·⁴⁸、Phe⁶·⁵⁵ 和 Val⁷·⁴³。mGlu₂ 特异性残基 His(E2.52)可能参与选择性,位于结合口袋外部的残基对于 [³H]-LY354740 激动剂结合抑制更为重要,这与高度保守的 Trp⁶·⁴⁸ 残基无关。
结论和意义
这是对 mGlu₂ 和 Group II mGluRs 变构结合口袋的首次完整分子研究,提供了关于什么决定 mGlu₂ NAMs 选择性相互作用和影响的新信息。
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