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Enzyme
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Query: EC:3.4.21.1 (
chymotrypsin
)
10,938
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Heparin cofactor II is a proteinase inhibitor which inhibits both
chymotrypsin
and thrombin, and displays great similarities with antithrombin III, the main inhibitor of thrombin in human plasma. Since acute pancreatitis is known to be associated with modification of the proteinase-antiproteinase equilibrium, we studied
heparin cofactor II
and antithrombin III as well as other biochemical and haematological parameters in 10 patients experiencing attacks of acute pancreatitis. Heparin cofactor II activity decreased during the first week of illness, while its antigen concentration remained subnormal. This discrepancy between antigen concentration and activity which persisted during the first week of illness was due both to complex formation of
heparin cofactor II
with its target proteinases and to partial proteolysis of the inhibitor. Heparin cofactor II was shown to form a complex with
chymotrypsin
in the plasma of such patients. Antithrombin III levels remained unchanged throughout the study, with no discrepancy between its activity and antigen concentration. No modification of haemostasis was shown either, except for a rise in the fibrinogen level during the first days of illness. It is concluded that, unlike antithrombin III,
heparin cofactor II
is involved in the proteinase-inhibitor equilibrium in patients with acute pancreatitis, and that
heparin cofactor II
might react as an inhibitor of pancreatic proteinases rather than an inhibitor of thrombin.
...
PMID:Involvement of heparin cofactor II in chymotrypsin neutralization and in the pancreatic proteinase-antiproteinase interaction during acute pancreatitis in man. 190 34
We previously showed that the alpha-thrombin-antithrombin III complex causes antigenic change in vitronectin as monitored by the monoclonal anti-vitronectin antibody 8E6 (Tomasini & Mosher, 1988). We have extended these studies to other protease-serpin complexes and to gamma-thrombin, a proteolytic derivative of alpha-thrombin. In the presence of heparin, recognition of vitronectin by 8E6 was increased 64- or 52-fold by interaction with the complex of alpha-thrombin and
heparin cofactor II
or the Pittsburgh mutant (Met358----Arg) of alpha 1-protease inhibitor, respectively. This was comparable to the value obtained with the alpha-thrombin-antithrombin III complex. Factor Xa-serpin complexes were approximately 4-fold less effective than the corresponding thrombin complexes. alpha-Thrombin-serpin complexes but not Xa-serpin complexes formed disulfide-bonded complexes with vitronectin. Antigenic changes and disulfide-bonded complexes were not detected when trypsin- or
chymotrypsin
-serpin complexes were incubated with vitronectin. gamma-Thrombin caused 7- and 34-fold increases in recognition of vitronectin by MaVN 8E6 in the absence and presence of heparin, respectively. In contrast, alpha-thrombin by itself had no effect. The antigenic change induced by gamma-thrombin was maximal when gamma-thrombin and vitronectin were equimolar, was not dependent on cleavage of vitronectin, and was abolished by inhibition of gamma-thrombin with Phe-Pro-Arg-chloromethyl ketone but not with diisopropyl fluorophosphate. These data indicate that alpha-thrombin is the component in alpha-thrombin-serpin complexes that induces the antigenic change in vitronectin, probably via a region that is preferentially exposed in gamma-thrombin.
...
PMID:Conformational lability of vitronectin: induction of an antigenic change by alpha-thrombin-serpin complexes and by proteolytically modified thrombin. 248 65
The in vivo catabolism of 125I-labeled alpha 1-antichymotrypsin was studied in our previously described mouse model. Native alpha 1-antichymotrypsin cleared with an apparent t1/2 of 85 min, but alpha 1-antichymotrypsin in complex with
chymotrypsin
or cathepsin G cleared with a t1/2 of 12 min. Clearance of the complex was blocked by a large molar excess of unlabeled complexes of proteinases with either alpha 1-antichymotrypsin or alpha 1-proteinase inhibitor. These studies indicate that the clearance of alpha 1-antichymotrypsin-proteinase complexes utilizes the same pathway as complexes with the homologous inhibitor alpha 1-proteinase inhibitor. Previous studies have demonstrated that this pathway is also responsible for the catabolism of two other serine proteinase inhibitors, antithrombin III and
heparin cofactor II
. This pathway is thus responsible for removing several proteinases involved in coagulation and inflammation from the circulation, thereby decreasing the likelihood of adventitious proteolysis.
...
PMID:In vivo catabolism of alpha 1-antichymotrypsin is mediated by the Serpin receptor which binds alpha 1-proteinase inhibitor, antithrombin III and heparin cofactor II. 326 84
Human
heparin cofactor II
is a plasma protein that is known to inhibit thrombin. The rate of thrombin inhibition by
heparin cofactor II
is accelerated (greater than or equal to 1000-fold) in the presence of the glycosaminoglycans, heparin and dermatan sulfate. We have found that
chymotrypsin
A alpha is also inhibited by
heparin cofactor II
with a second-order rate constant value of 1.8 X 10(6) M-1 X min-1 at pH 8.0 and 25 degrees C. However, there was no measurable effect of heparin or dermatan sulfate on the rate of
chymotrypsin
inhibition. Arginine-modified
heparin cofactor II
showed a comparable percentage loss of both antichymotrypsin and antithrombin activities. Heparin cofactor II and
chymotrypsin
formed a stable complex with a Mr value near 90,000 when analyzed by NaDodSO4/polyacrylamide gel electrophoresis; this suggests a 1:1 reaction stoichiometry. The
chymotrypsin
cleavage site in
heparin cofactor II
was the same as that for thrombin, and primary structure analysis of the inhibitor showed a P'1-P'8 sequence of Ser-Thr-Gln-Val-Arg-Phe-Thr-Val ... . The results indicate that, in contrast to alpha 1-antichymotrypsin, which does not inhibit trypsin-like enzymes, including thrombin,
heparin cofactor II
can effectively inhibit both thrombin and
chymotrypsin
.
...
PMID:Inhibition of chymotrypsin by heparin cofactor II. 386 4
Recombinant human
heparin cofactor II
(rHCII) was expressed as a fully active protein in the High-Five insect cell line. A maximal protein concentration of 6 micrograms/10(6) cells was achieved 2 days postinfection. Approximately 40 micrograms of partially purified rHCII was routinely recovered from 50 ml of media after sequential heparin and Q-Sepharose affinity adsorption. rHCII had a slightly lower apparent molecular weight than blood plasma HCII (pHCII) due to differences in N-glycosylation. Like pHCII, rHCII formed a stable bimolecular complex with thrombin when assessed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The thrombin and
chymotrypsin
inhibitory properties of rHCII and pHCII were quite similar. In the absence of glycosaminoglycan, the thrombin inhibition rate (k2 x 10(-4) M-1 min-1) was 2.29 +/- 0.36 for rHCII and 3.38 +/- 0.34 for pHCII. Chymotrypsin inhibition rates (k2 x 10(-5) M-1 min-1) were 6.2 +/- 2.0 for rHCII and 8.0 +/- 2.6 for pHCII. In the presence of glycosaminoglycans, the maximal thrombin inhibition rate (k2 x 10(-3) M-1 min-1) for rHCII was 10.4 +/- 2.5 at 100 micrograms/ml heparin and 16.0 +/- 4.3 at 1000 micrograms/ml dermatan sulfate compared to 9.0 +/- 0.7 at 200 micrograms/ml heparin and 18.5 +/- 5.3 at 1000 micrograms/ml dermatan sulfate for pHCII. HCII inhibition of thrombin was blocked by a synthetic sulfated hirudin peptide in both the presence and the absence of glycosaminoglycan. The present report describes for the first time the expression and characterization of HCII in a baculovirus system and demonstrates the feasibility of using this system to obtain adequate amounts of biologically active rHCII for future structure-function studies.
...
PMID:Characterization of recombinant heparin cofactor II expressed in insect cells. 874 33
The crystal structure of a
heparin cofactor II
(
HCII
)-thrombin Michaelis complex has revealed extensive contacts encompassing the N-terminal domain of
HCII
and exosite I of the proteinase. In contrast, the location of the N-terminal extension in the uncomplexed inhibitor was unclear. Using a disulfide cross-linking strategy, we demonstrate that at least three different sites (positions 52, 54 and 68) within the N terminus may be tethered in a reformable manner to position 195 in the loop region between helix D and strand s2A of the
HCII
molecule, suggesting that the N-terminal domain may interact with the inhibitor scaffold in a permissive manner. Cross-linking of the N terminus to the
HCII
body does not strongly affect the inhibition of
alpha-chymotrypsin
, indicating that the reactive site loop sequences of the engineered inhibitor variants, required for interaction with one of the
HCII
target enzymes, are normally accessible. In contrast, intramolecular tethering of the N-terminal extension results in a drastic decrease of alpha-thrombin inhibitory activity, both in the presence and in the absence of glycosaminoglycans. Treatment with dithiothreitol and iodoacetamide restores activity towards alpha-thrombin, suggesting that release of the N terminus of
HCII
is an important component of the multistep interaction between the inhibitor and alpha-thrombin.
...
PMID:Reformable intramolecular cross-linking of the N-terminal domain of heparin cofactor II: effects on enzyme inhibition. 1551 Dec 33
