Enhancing GAT-3 in thalamic astrocytes promotes resilience to brain injury in rodents

丘脑 神经科学 炎症 医学 创伤性脑损伤 神经炎症 心理学 免疫学 精神科
作者
Frances S. Cho,Ilia D. Vainchtein,Yuliya Voskobiynyk,Allison R. Morningstar,Francisco Aparicio,Bryan Higashikubo,Agnieszka Ciesielska,Diede W. M. Broekaart,Jasper J. Anink,Erwin A. van Vliet,Xinzhu Yu,Baljit S. Khakh,Eleonora Aronica,Anna V. Molofsky,Jeanne T. Paz
出处
期刊:Science Translational Medicine [American Association for the Advancement of Science]
卷期号:14 (652): eabj4310-eabj4310 被引量:46
标识
DOI:10.1126/scitranslmed.abj4310
摘要

Inflammatory processes induced by brain injury are important for recovery; however, when uncontrolled, inflammation can be deleterious, likely explaining why most anti-inflammatory treatments have failed to improve neurological outcomes after brain injury in clinical trials. In the thalamus, chronic activation of glial cells, a proxy of inflammation, has been suggested as an indicator of increased seizure risk and cognitive deficits that develop after cortical injury. Furthermore, lesions in the thalamus, more than other brain regions, have been reported in patients with viral infections associated with neurological deficits, such as SARS-CoV-2. However, the extent to which thalamic inflammation is a driver or by-product of neurological deficits remains unknown. Here, we found that thalamic inflammation in mice was sufficient to phenocopy the cellular and circuit hyperexcitability, enhanced seizure risk, and disruptions in cortical rhythms that develop after cortical injury. In our model, down-regulation of the GABA transporter GAT-3 in thalamic astrocytes mediated this neurological dysfunction. In addition, GAT-3 was decreased in regions of thalamic reactive astrocytes in mouse models of cortical injury. Enhancing GAT-3 in thalamic astrocytes prevented seizure risk, restored cortical states, and was protective against severe chemoconvulsant-induced seizures and mortality in a mouse model of traumatic brain injury, emphasizing the potential of therapeutically targeting this pathway. Together, our results identified a potential therapeutic target for reducing negative outcomes after brain injury.
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