Abstract: Methods and pharmaceutical compositions for treating ischemic injury are provided. The methods include administering a therapeutically effective amount of a vascular matrix metalloproteinase 9 (MMP-9) inhibitor that reduces ischemic injury in a subject.

Abstract: Compositions and methods of using SerpinF2-binding molecules for preventing and/or reducing organ damage, functional disability or mortality in a patient at risk due to the activity of SerpinF2 and/or plasminogen activators on tissue injury. Also provided are compositions and methods of using SerpinF2-binding molecules for inhibiting hemorrhage, edema, and apoptosis. Methods for the preparation of medicaments for such methods of treatment and prevention are provided.

Abstract: The invention provides a method and composition for preventing thrombosis and complications associated therewith by targeting Sf2 directly. The invention provides Sf2-deficiency or prophylactic administration of a therapeutic agent, such as a Sf2 antagonist or a Sf2 antibody, markedly reduces thrombus formation that would otherwise be caused due to surgery, immobility, genetic abnormality, cancer, trauma, or other risk factors.

Abstract: Methods for increasing plasmin activity in a patient in need thereof are provided, comprising administering to the patient a therapeutic amount of an agent which binds to ?2-antiplasmin at a binding site to increase conversion of ?2-antiplasmin from an inhibitor to a plasmin substrate, thereby increasing plasmin activity in the patient. Also provided are methods for the identification of compounds or molecules that increase plasmin activity, comprising determining whether the compound or molecule binds to a binding site on ?2-antiplasmin which increases the conversion of ?2-antiplasmin from an inhibitor to a plasmin substrate, wherein the compound or molecule is not an antibody, thereby identifying a compound or molecule which increases plasmin activity. Further provided are pharmaceutical compositions and methods of use thereof for the treatment of myocardial infarction, thrombosis, ischemic stroke, and pulmonary embolism.

Abstract: Methods for increasing plasmin activity in a patient in need thereof are provided, comprising administering to the patient a therapeutic amount of an agent which binds to ?2-antiplasmin at a binding site to increase conversion of cc2-antiplasmin from an inhibitor to a plasmin substrate, thereby increasing plasmin activity in the patient. Also provided are methods for the identification of compounds or molecules that increase plasmin activity, comprising determining whether the compound or molecule binds to a binding site on ?2-antiplasmin which increases the conversion of ?2-antiplasmin from an inhibitor to a plasmin substrate, wherein the compound or molecule is not an antibody, thereby identifying a compound or molecule which increases plasmin activity. Further provided are pharmaceutical compositions and methods of use thereof for the treatment of myocardial infarction, thrombosis, ischemic stroke, and pulmonary embolism.

Abstract: Compositions and methods of using SerpinF2-binding molecules for preventing and/or reducing organ damage, functional disability or mortality in a patient at risk due to the activity of SerpinF2 and/or plasminogen activators on tissue injury. Also provided are compositions and methods of using SerpinF2-binding molecules for inhibiting hemorrhage, edema, and apoptosis. Methods for the preparation of medicaments for such methods of treatment and prevention are provided.