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Literature DB >> 29160736

GAT3 selective substrate l-isoserine upregulates GAT3 expression and increases functional recovery after a focal ischemic stroke in mice.

Maria Ek Lie^1,2, Emma K Gowing², Nina B Johansen¹, Nils Ole Dalby¹, Louise Thiesen¹, Petrine Wellendorph¹, Andrew N Clarkson^2,3.

Abstract

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.

Entities: Chemical Disease Gene Species

Keywords: -isoserine; GAT3 substrate inhibitor; Photothrombotic stroke; functional recovery; tonic inhibition

Mesh：

Substances：

Year: 2017 PMID： 29160736 PMCID： PMC6311676 DOI： 10.1177/0271678X17744123

Source DB: PubMed Journal: J Cereb Blood Flow Metab ISSN： 0271-678X Impact factor: 6.200

47 in total

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Journal: Nat Rev Neurosci Date: 2009-11-04 Impact factor: 34.870

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5. The Delta-Subunit Selective GABA _A Receptor Modulator, DS2, Improves Stroke Recovery via an Anti-inflammatory Mechanism.

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7. Targeting GABA_C Receptors Improves Post-Stroke Motor Recovery.

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8. Exploring the molecular determinants for subtype-selectivity of 2-amino-1,4,5,6-tetrahydropyrimidine-5-carboxylic acid analogs as betaine/GABA transporter 1 (BGT1) substrate-inhibitors.

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8 in total