Rae Caroline, Nasrallah Fatima A, Balcar Vladimir J, Rowlands Benjamin D, Johnston Graham A R, Hanrahan Jane R
Neuroscience Research Australia, Barker St, Randwick, NSW, 2031, Australia,
J Neuroimmune Pharmacol. 2015 Sep;10(3):445-56. doi: 10.1007/s11481-014-9579-4. Epub 2015 Jan 11.
The inhibitory neurotransmitter γ-aminobutyric acid (GABA) acts through various types of receptors in the central nervous system. GABAρ receptors, defined by their characteristic pharmacology and presence of ρ subunits in the channel structure, are poorly understood and their role in the cortex is ill-defined. Here, we used a targeted pharmacological, NMR-based functional metabolomic approach in Guinea pig brain cortical tissue slices to identify a distinct role for these receptors. We compared metabolic fingerprints generated by a range of ligands active at GABAρ and included these in a principal components analysis with a library of other metabolic fingerprints obtained using ligands active at GABAA and GABAB, with inhibitors of GABA uptake and with compounds acting to inhibit enzymes active in the GABAergic system. This enabled us to generate a metabolic "footprint" of the GABAergic system which revealed classes of metabolic activity associated with GABAρ which are distinct from other GABA receptors. Antagonised GABAρ produce large metabolic effects at extrasynaptic sites suggesting they may be involved in tonic inhibition.
抑制性神经递质γ-氨基丁酸(GABA)通过中枢神经系统中的各种受体发挥作用。GABAρ受体由其独特的药理学特性和通道结构中ρ亚基的存在所定义,目前人们对其了解甚少,并且它们在皮层中的作用也不明确。在此,我们在豚鼠脑皮质组织切片中采用了一种基于核磁共振的靶向药理学功能代谢组学方法,以确定这些受体的独特作用。我们比较了一系列对GABAρ有活性的配体所产生的代谢指纹图谱,并将其纳入主成分分析,该分析还包括使用对GABAA和GABAB有活性的配体、GABA摄取抑制剂以及作用于抑制GABA能系统中活性酶的化合物所获得的其他代谢指纹图谱库。这使我们能够生成GABA能系统的代谢“足迹”,揭示了与GABAρ相关的不同代谢活性类别,这些类别与其他GABA受体不同。拮抗GABAρ会在突触外位点产生较大的代谢效应,表明它们可能参与了紧张性抑制。
