Christophe Adam scite author profile

Christophe Adam

2Publications

38Citation Statements Received

61Citation Statements Given

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Inserm, University of Strasbourg

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Kinetic Mechanism of the Inhibition of Cathepsin G by α₁-Antichymotrypsin and α₁-Proteinase Inhibitor

1998

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Uncontrolled proteolysis due to cathepsin G (cat G) may cause severe pathological disorders. Cat G is inhibited by alpha 1-antichymotrypsin (ACT) and alpha 1-proteinase inhibitor (alpha 1PI), two members of the serpin superfamily of proteins. To see whether these two inhibitors play a physiological proteolysis-preventing function, we have made a detailed kinetic investigation of their reaction with cat G. The kinetics of inhibition of cat G in the presence of inhibitor and substrate evidenced a two-step inhibition mechanism: E + I EI EI. The cat G/ACT interaction is described by Ki = 6.2 x 10(-)8 M and k2 = 2.8 x 10(-)2 s-1, while the cat G/alpha 1PI association is governed by Ki = 8.1 x 10(-)7 M and k2 = 5.5 x 10(-)2 s-1. The reliability of these kinetic constants was checked using a number of experiments which all gave consistent results: (i) both EI complexes were found to be enzymatically inactive, (ii) the Ki values were determined directly using initial velocity experiments of cat G-catalyzed hydrolysis of substrate in the presence of inhibitor, (iii) the second-order rate constants k2/Ki were measured using second-order inhibition experiments in the absence of substrate, and (iv) the ratio of the two second-order rate constants was determined by measuring the partition of cat G between the two fluorescently labeled serpins. Since the plasma concentrations of ACT and alpha 1PI are much higher than their Ki values, cat G released from neutrophils will be fully taken up as rapidly forming EI complexes, that is, 70% with ACT and 30% with alpha 1PI. Both ACT and alpha 1PI are thus physiological cat G inhibitors whose inhibitory potential does not depend on the formation of the stable inhibitory species EI characteristic of serpins. Such an in vivo inhibition mechanism might take place with other serpin/proteinase systems.

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Inhibition of neutrophil elastase by the α₁‐proteinase inhibitor‐immunoglobulin A complex

Adam

Bieth

1996

FEBS Letters

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Neutrophil elastase is thought to be involved in cartilage destruction occurring in rheumatoid arthritis despite the local presence of al-proteinase inhibitor. Part of synovial fluid al-proteinase inhibitor forms a mixed disulfide with immunoglobulin A, which has been postulated to lack inhibitory activity. We show here that the immunoglobulin-inhihitor complex tightly inhibits neutrophil elastase and catbepsin G, bovine pancreatic trypsin and chymotrypsin, and porcine pancreatic elastase. Although the rate constant of inhibition of neutrophil elastase by immunoglobulin A-bound al-proteinase inhibitor (kass = 9.2 × 10 5 M -l" s -I) is about 10-fold lower than that measured with the free inhibitor, it is high enough to enable efficient inhibition of elastase in vivo.

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Christophe Adam

Kinetic Mechanism of the Inhibition of Cathepsin G by α₁-Antichymotrypsin and α₁-Proteinase Inhibitor

Inhibition of neutrophil elastase by the α₁‐proteinase inhibitor‐immunoglobulin A complex

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Christophe Adam

Kinetic Mechanism of the Inhibition of Cathepsin G by α1-Antichymotrypsin and α1-Proteinase Inhibitor

Inhibition of neutrophil elastase by the α1‐proteinase inhibitor‐immunoglobulin A complex

Contact Info

Product

Resources

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Kinetic Mechanism of the Inhibition of Cathepsin G by α₁-Antichymotrypsin and α₁-Proteinase Inhibitor

Inhibition of neutrophil elastase by the α₁‐proteinase inhibitor‐immunoglobulin A complex