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Author Notes:

Address correspondence to: Manuel Yepes, Department of Neurology and Center for Neurodegenerative Disease, Whitehead Biomedical Research Building, 615 Michael Street, Suite 505J, Atlanta, Georgia 30322, USA. Phone: 404.712.8358; Fax: 404.727.3728; E-mail: myepes@emory.edu.

Authorship note: Ramiro Echeverry and Jialing Wu contributed equally to this work.

The authors have declared that no conflict of interest exists.

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Research Funding:

This work was supported in part by NIH grants NS-062073 and HL-095063 (to M.Y.)

Tissue-type plasminogen activator is a neuroprotectant in the mouse hippocampus

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Journal Title:

Journal of Clinical Investigation

Volume:

Volume 120, Number 6

Publisher:

, Pages 2194-2205

Type of Work:

Article | Final Publisher PDF

Abstract:

The best-known function of the serine protease tissue-type plasminogen activator (tPA) is as a thrombolytic enzyme. However, it is also found in structures of the brain that are highly vulnerable to hypoxia-induced cell death, where its association with neuronal survival is poorly understood. Here, we have demonstrated that hippocampal areas of the mouse brain lacking tPA activity are more vulnerable to neuronal death following an ischemic insult. We found that sublethal hypoxia, which elicits tolerance to subsequent lethal hypoxic/ischemic injury in a natural process known as ischemic preconditioning (IPC), induced a rapid release of neuronal tPA. Treatment of hippocampal neurons with tPA induced tolerance against a lethal hypoxic insult applied either immediately following insult (early IPC) or 24 hours later (delayed IPC). tPA-induced early IPC was independent of the proteolytic activity of tPA and required the engagement of a member of the LDL receptor family. In contrast, tPA-induced delayed IPC required the proteolytic activity of tPA and was mediated by plasmin, the NMDA receptor, and PKB phosphorylation. We also found that IPC in vivo increased tPA activity in the cornu ammonis area 1 (CA1) layer and Akt phosphorylation in the hippocampus, as well as ischemic tolerance in wild-type but not tPA- or plasminogen-deficient mice. These data show that tPA can act as an endogenous neuroprotectant in the murine hippocampus.

Copyright information:

© 2010, American Society for Clinical Investigation

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