Abstract: Provided herein are methods for safe and effective thrombolysis in therapy for human subjects with symptoms of a potential stroke or acute myocardial infarction (“AMI”) using a sequential administration of a low dose bolus of human tissue plasminogen activator (“tPA”) followed by an infusion of a mutant form of human pro-urokinase (“proUK”).

Abstract: Provided herein are methods for use in safe and effective thrombolysis, e.g., in therapy for a potential stroke or acute myocardial infarction (“AMI”) at a maximum arterial patency rate with minimal associated hemorrhagic side effects.

Abstract: Vector constructs comprising the coding sequence for human C1 inhibitor are described. Expression of glycosylated recombinant human C1 inhibitor is achieved human cells in high yields.

Abstract: A mutant prourokinase plasminogen activator (M5) was developed to make prouPA less subject to spontaneous activation during fibrinolysis. C1-inhibitor complexes with tcM5. The effect of C1-inhibitor on fibrinolysis and fibrinogenolysis by M5 was determined. Supplemental C1-inhibitor restores the stability of M5 but not that of prouPA. Clot lysis by M5 with supplemental C1-inhibitor showed no attenuation of the rate of fibrinolysis, whereas fibrinogenolysis was prevented by C1-inhibitor. Due to higher dose tolerance of M5 with C1-inhibitor, the rate of fibrin-specific lysis reached that achievable by nonspecific fibrinolysis without inhibitor. Plasma C1-inhibitor stabilized M5 in plasma by inhibiting tcM5 and thereby non-specific plasminogen activation. At the same time, fibrin-specific plasminogen activation remained unimpaired. This unusual dissociation of effects has significant implications for improving the safety and efficacy of fibrinolysis.