The effect of recombinant human microplasmin was studied in ischemic stroke models in mice and in an extracorporeal loop thrombosis model in rabbits. Human microplasminogen ( micro Plg), which lacks the five 'kringle' domains of plasminogen was expressed with high yield in Pichia pastoris. It was purified, converted to microplasmin ( micro Pli) and equilibrated with 5 mmol L(-1) citrate, pH 3.1, yielding a stable preparation. In mice with middle cerebral artery (MCA) ligation, an intravenous (i.v.) bolus of 5.0 mg kg(-1) micro Pli reduced infarct size at 24 h from 27 (26-30) to 25 (21-28) mm3 (median and range, n= 16 each, P= 0.0001), whereas 4.0 mg kg(-1) rt-PA and 40 mg kg(-1) micro Plg had no effect. Infarct reduction was observed with administration at 4 h after occlusion. In mice with MCA, infarct size at 24 h was reduced from 20 (14-30) to 9.1 (3.1-25) mm3 with 5.0 mg kg(-1) micro Pli (n = 15 each, P < 0.002) and to 11 (5.2-27) mm3 with 4.0 mg kg(-1) rt-PA (n = 6; P= 0.02). Infarct reduction was still observed at 10 h after occlusion with micro Pli but not with t-PA. In rabbits with radiolabeled clots in an extracorporeal arteriovenous loop, local infusion of 2.5 mg kg(-1) micro Pli over 2 h, induced 51 +/- 15% lysis (mean +/- SD, n= 11) vs. a control value of 23 +/- 5.5%. micro Pli did not prolong template bleeding times, whereas equipotent doses of rt-PA were associated with extensive rebleeding. The potency of micro Pli in both models was similar to that of intact plasmin. These findings indicate that recombinant micro Pli may be useful for treatment of ischemic stroke and arterial thrombosis.