A single-step separation of the one- and two-chain forms of tissue plasminogen activator

Abstract

Preparations of one-chain tissue plasminogen activator (tPA), usually a mixture of 65- and 63-kDa differentially glycosylated forms, contain variable amounts of two-chain tPA. There is no effective procedure currently available for removal of the two-chain contaminant from one-chain tPA preparations. In this report, affinity chromatography on benzamidine-Sepharose was investigated for the separation of two-chain from one-chain tPA. Activase, a preparation of recombinant tPA containing 80% one-chain tPA, a mixture of 65- and 63-kDa variants, and 20% two-chain tPA, was applied to a column of benzamidine-Sepharose, equilibrated with 1 m ammonium bicarbonate. Under this condition, both one-chain and two-chain forms of tPA were adsorbed by the column. Addition of 0.1 m arginine to the equilibration buffer led to elution of two-peaks, corresponding to the 65- and 63-kDa variants of one-chain tPA. Two-chain tPA remained bound to the column, but could be eluted with sodium acetate buffer, pH 4.0, containing 0.1 m arginine. The present procedure allows rapid and effective removal of two-chain tPA with concomitant separation of 65- and 63-kDa one-chain glycoforms from preparations of one-chain tPA. Kinetic analysis for the hydrolysis of d-Ile-Pro-Arg- p-nitroanilide (S-2288) by the highly purified molecular forms of tPA suggests that 63-kDa one-chain tPA possesses 30% higher catalytic efficiency than the 65-kDa variant, while two-chain tPA is 9- or 12-fold more efficient than 63- or 65-kDa one-chain tPA, respectively.