1 Department of Drug Design and Pharmacology, University of Copenhagen, Copenhagen, Denmark.
2 Department of Anatomy, Brain Health Research Centre and Brain Research New Zealand, University of Otago, Dunedin, New Zealand.
J Cereb Blood Flow Metab. 2019 Jan;39(1):74-88. doi: 10.1177/0271678X17744123. Epub 2017 Nov 21.
Ischemic stroke triggers an elevation in tonic GABA inhibition that impairs the ability of the brain to form new structural and functional cortical circuits required for recovery. This stroke-induced increase in tonic inhibition is caused by impaired GABA uptake via the glial GABA transporter GAT3, highlighting GAT3 as a novel target in stroke recovery. Using a photothrombotic stroke mouse model, we show that GAT3 protein levels are decreased in peri-infarct tissue from 6 h to 42 days post-stroke. Prior studies have shown that GAT substrates can increase GAT surface expression. Therefore, we aimed to assess whether the GAT3 substrate, L-isoserine, could increase post-stroke functional recovery. L-Isoserine (38 µM or 380 µM) administered directly into the infarct from day 5 to 32 post-stroke, significantly increased motor performance in the grid-walking and cylinder tasks in a concentration-dependent manner, without affecting infarct volumes. Additionally, L-isoserine induced a lasting increase in GAT3 expression in peri-infarct regions accompanied by a small decrease in GFAP expression. This study is the first to show that a GAT3 substrate can increase GAT3 expression and functional recovery after focal ischemic stroke following a delayed long-term treatment. We propose that enhancing GAT3-mediated uptake dampens tonic inhibition and promotes functional recovery after stroke.
缺血性中风会引发持续的 GABA 抑制作用升高,从而损害大脑形成新的结构和功能皮质回路的能力,而这些回路对于恢复是必需的。这种中风引起的持续抑制作用增加是由于通过星形胶质细胞 GABA 转运体 GAT3 摄取 GABA 的能力受损所致,这突出了 GAT3 作为中风恢复的新靶点。我们使用光血栓性中风小鼠模型表明,中风后 6 小时至 42 天,梗死周围组织中的 GAT3 蛋白水平降低。先前的研究表明,GAT 底物可以增加 GAT 的表面表达。因此,我们旨在评估 GAT3 底物 L-异丝氨酸是否可以增加中风后的功能恢复。L-异丝氨酸(38µM 或 380µM)从中风后第 5 天至第 32 天直接注入梗死部位,以浓度依赖的方式显著提高网格行走和圆筒实验中的运动表现,而不影响梗死体积。此外,L-异丝氨酸诱导梗死周围区域的 GAT3 表达持续增加,同时 GFAP 表达略有下降。这项研究首次表明,GAT3 底物可以在延迟的长期治疗后增加局灶性缺血性中风后的 GAT3 表达和功能恢复。我们提出,增强 GAT3 介导的摄取可以减轻中风后的持续抑制作用并促进功能恢复。