W.J.G. Schielen scite author profile

Fibrin, but not fibrinogen, accelerates the activation of plasminogen catalyzed by tissue-type plaminogen activator. Previous work showed that essential information for this accelerating capacity of fibrin resides in the sequence corresponding to residues 148-160 of the A alpha chain of fibrinogen [A alpha-(148-160)]. Our working hypothesis, based on those findings, is that A alpha-(148-160) is buried in fibrinogen and becomes accessible to proteins such as plasminogen and/or tissue-type plasminogen activator when fibrinogen is converted to fibrin. To test this hypothesis we have raised a monoclonal antibody against synthetic A alpha-(148-160) and found that this antibody reacts with fibrin and not with fibrinogen. This finding shows that A alpha-(148-160) becomes accessible when fibrinogen is converted to fibrin and that A alpha-(148-160) is a fibrin-specific neoantigenic determinant.

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Assessment of the functional affinity constant of monoclonal antibodies using an improved enzyme-linked immunosorbent assay

Loomans

Roelen

Damme

et al. 1995

Journal of Immunological Methods

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The sequence A??-(154 ??? 159) of fibrinogen is capable of accelerating the t-PA catalysed activation of plasminogen

Schielen

Adams

Voskuilen

et al. 1991

Blood Coagulation & Fibrinolysis

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Real-Time Monitoring of Peptide–Surface and Peptide–Antibody Interaction by Means of Reflectometry and Surface Plasmon Resonance

Loomans

Beumer

Damen

et al. 1997

Journal of Colloid and Interface Science

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Structural requirements of fibrinogen A??-(148 - 160) for the enhancement of the rate of plasminogen activation by tPA

Schielen

Voskuilen

Adams

et al. 1990

Blood Coagulation & Fibrinolysis

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W.J.G. Schielen

The sequence A alpha-(148-160) in fibrin, but not in fibrinogen, is accessible to monoclonal antibodies.

Assessment of the functional affinity constant of monoclonal antibodies using an improved enzyme-linked immunosorbent assay

The sequence A??-(154 ??? 159) of fibrinogen is capable of accelerating the t-PA catalysed activation of plasminogen

Real-Time Monitoring of Peptide–Surface and Peptide–Antibody Interaction by Means of Reflectometry and Surface Plasmon Resonance

Structural requirements of fibrinogen A??-(148 - 160) for the enhancement of the rate of plasminogen activation by tPA

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