As the second leading cause of death and disability, ischemic stroke kills and disables millions of people each year. Tissue plasminogen activator (TPA), the only approved treatment, dissolves the culprit fibrin thrombus to restore blood flow and relieve the brain from ischemia. Unfortunately, after prolonged ischemia, TPA may cause serious or fatal complications; this restricts TPA use to a minority of stroke patients. Although TPA has provided a model for therapeutic fibrinolysis, recent data suggest a new paradigm that assigns a central role to regulatory molecules such as alpha-2-antiplasmin (a2AP) in determining outcomes after ischemic stroke. Clinical observations suggest that high a2AP levels may increase the risk of ischemic stroke and of TPA failure. In experiments that challenge the current therapeutic paradigm for fibrinolytic treatment of stroke, we have shown that a2AP markedly increases brain injury, in a dose-dependent fashion. Conversely, a2AP deficiency or monoclonal antibody inactivation of a2AP, profoundly reduces brain injury, apoptosis, hemorrhage, and swelling. Even after prolonged brain ischemia, a2AP inactivation reduces microvascular thrombosis and MMP-9 expression (a marker of acute inflammation). As a result, a2AP inactivation prevents death and disability after ischemic stroke. Thus, when compared to TPA, a2AP-inactivation appears to provide a safe and effective approach for improving stroke treatment and, through a NINDS collaboration, we are pursuing the development of a2AP inactivation therapy. This proposal seeks to determine the pathophysiologic mechanisms through which a2AP enhances ischemic brain injury after thromboembolic stroke. The organizing hypothesis is that a2AP acts through plasminogen-dependent mechanisms to enhance the development of microvascular thrombosis and impair downstream, microvascular perfusion. Through these mechanisms, a2AP promotes the development of inflammatory responses such as MMP-9 expression and neutrophil recruitment, which have acute deleterious effects.
Aim 1 will test the hypothesis that a2AP's deleterious effects in ischemic stroke are due to diminished plasmin(ogen)-dependent, endogenous fibrinolysis that impairs microvascular blood flow through its effect on the culprit thrombus and the development of downstream, thrombin-dependent, microvascular thrombosis. We also propose to examine the hypothesis (Aim 2) that a2AP regulates the endogenous fibrinolytic system to affect the development of ischemic injury, hemorrhage, swelling and survival in thromboembolic stroke through inflammation-linked pathways that require MMP-9 activity and neutrophil deposition. Finally, we will use molecular complementation with specific a2AP mutants to examine the hypothesis that specific structural elements in the a2AP molecule selectively enhance adverse outcomes (such as neuronal injury, hemorrhage, etc.) in ischemic stroke.

Public Health Relevance

Stroke affects 15 million patients each year, leaving millions disabled or dead. We have discovered a novel therapeutic strategy for preventing brain damage, disability and death after experimental stroke. We seek to determine the mechanisms through which this novel therapy works in ischemic stroke, by examining its effects on inflammation, as well as on blood flow and thrombotic obstruction of small blood vessels.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
7R01NS089707-03
Application #
9539385
Study Section
Brain Injury and Neurovascular Pathologies Study Section (BINP)
Program Officer
Koenig, James I
Project Start
2017-09-01
Project End
2020-08-31
Budget Start
2017-09-01
Budget End
2018-08-31
Support Year
3
Fiscal Year
2017
Total Cost
Indirect Cost
Name
University of Arizona
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
806345617
City
Tucson
State
AZ
Country
United States
Zip Code
85721
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