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Thromb Haemost 1990; 64(04): 556-558
DOI: 10.1055/s-0038-1647357
Original Article
Schattauer GmbH Stuttgart

The pH Dependence of the Binding of Pro-Urokinase to Fibrin/Celite

Ralph Pannell
The Vascular Research Laboratory, New England Deaconess Hospital, Harvard Medical School, Boston, MA, USA
,
Eduardo Angles-Cano
*   The Inserm U-143, Equipe Fibrinolyse, Institut de Pathologie Cellulaire, Hopital de Bicetre, Bicetre, France
,
Victor Gurewich
The Vascular Research Laboratory, New England Deaconess Hospital, Harvard Medical School, Boston, MA, USA
› Author Affiliations
Further Information

Publication History

Received 19 December 1989

Accepted after revision23 July 1990

Publication Date:
25 July 2018 (online)

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Summary

A re-examination of the affinity of pro-urokinase (pro-UK), HMW and LMW-urokinase (UK) to fibrin/Celite was undertaken in order to explain how the chance purification of pro-UK from freshly voided urine by fibrin/Celite affinity chromatography may be reconciled with the subsequent observations that pro-UK failed to bind significantly to fibrin clots in plasma. A significant pH dependence of pro-UK binding to fibrin/Celite was found. Substantial binding of pro-UK (native or recombinant from E. coli), but not of the two-chains forms, was seen at about pH 6.5, which is in the normal pH range of pooled, freshly voided urine. By contrast, at pH 7.4 fibrin binding of pro-UK was much reduced, though it was still significantly greater than that of HMW or LMW-UK. This finding helps to explain the fibrin-binding of pro-UK in freshly voided urine but not in blood. In order to determine if this' pH dependence was the sole explanation for why pro-UK could not be isolated by this method from stored urine, the stability of pro-UK in urine was evaluated by incubating 125I-labeled pro-UK in urine: Incubation for up to 4 days (37° C) was not accompanied by any degradation of the single-chain pro-UK as evidenced by autoradiography under reducing conditions. It was concluded that the alkaline shift in pH which occurs in urine left standing, rather than the degradation of pro-UK, explained why freshly voided urine was found to be essential. Clot lysis studies at pH 6.5 and 7.4 showed no promotion of fibrinolysis at the pH which favored fibrin/Celite binding. Therefore, while the present study defines the conditions under which pro-UK may be purified from urine by fibrin/Celite chromatography, it provides no evidence that this binding phenomenon plays any role in fibrinolysis.