Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
An inhibitor of factor XIIa has been purified to homogeneity from bovine plasma. The purification steps included precipitation of contaminating proteins with polyethylene glycol and chromatography on DEAE-cellulose, Affi-Gel blue, and immobilized wheat germ lectin. The apparent molecular weight of the XIIa inhibitor (called INH1) was 85,000, reduced, and 92,000, nonreduced, by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The extinction coefficient (E0.1%(280)) of INH1 is 1.3, and the protein contains 17.7% carbohydrate. Purified antibody to INH1 raised in either rabbits or chickens formed a precipitin line of identity with purified INH1 and a component of bovine plasma, but there was no reaction with purified human inhibitors or with any component of human plasma. INH1 inhibits bovine and human XIIa, bovine and human C1-esterase, and human kallikrein, but does not inhibit bovine kallikrein, bovine
trypsin
, human plasmin, or human thrombin. This activity is similar to that of
C1-inhibitor
but different from antithrombin III, alpha 2-antiplasmin, or alpha 1-protease inhibitor. INH1 at a physiological concentration (0.47 microM) causes rapid inactivation of XIIa. The two molecules react in a 1:1 stoichiometry with a second-order rate constant of 1.23 X 10(6) M-1 min-1.
...
PMID:Isolation and characterization of an inhibitor of factor XIIa from bovine plasma. 311 62
Amino acid sequencing of
trypsin
fragments of
C1 inhibitor
gave regions of low codon degeneracy that were used for oligonucleotide probes. Human liver cDNA libraries gave clones containing most of the protein sequence, showing that the inhibitory domain belongs to the 'serpin' class of protein inhibitors. Fragments of these cDNA clones were used to probe human genomic cosmid libraries. The genomic sequence was found to be about 17 X 10(3) base pairs, with a coding sequence of approximately 1800 base pairs containing introns at amino acid positions--6, 162, 207, 275, 321, 395, and one in the 5' non-coding region. There is very little similarity of intron position amongst the serpin genes. All but one of the intron positions in the
C1 inhibitor
structural gene correspond to surface residues if
C1 inhibitor
is considered to have a structure similar to the cleaved form of alpha 1-antiproteinase. The serine and threonine residues in the N-terminal 100 amino acids of the sequence thought to carry complex carbohydrates are found in a single exon.
...
PMID:Genomic and cDNA cloning of the human C1 inhibitor. Intron-exon junctions and comparison with other serpins. 326 20
Individuals with serum alpha1-antitrypsin levels below 80 mg/dl are clearly at risk for the development of accelerated panacinar emphysema. One possible approach to the therapy of this disorder would be to raise serum levels of this major antiprotease to establish protease-antiprotease homeostasis within the lung parenchyma. Because danazol, an impeded androgen, elevates levels of
C1 inhibitor
in patients deficient of that serum antiprotease, we hypothesized that this agent might also increase alpha1-antitrypsin levels in patients with alpha1-antitrypsin deficiency. To evaluate this concept, seven patients with severe emphysema associated with alpha1-antitrypsin deficiency (six PiZ and 1 M(Duarte)Z) and one asymptomatic individual (PiSZ) received 600 mg of danazol daily for 30 d. Five of the six PiZ patients responded to danazol therapy with significant increases in serum alpha1-antitrypsin levels (mean increase of 37%; P < 0.03). The two individuals who were heterozygous for the Z protein increased their serum levels by 85% (PiM(Duarte)Z) and 87% (PiSZ), respectively. These increases in serum alpha1-antitrypsin antigen were accompanied by commensurate increases in serum
trypsin
inhibition. Crossed immunoelectrophoresis showed no alterations of the microheterogeneity of the alpha1-antitrypsin or the presence of protease-antiprotease complexes in serum during danazol therapy. These data demonstrate that serum alpha1-antitrypsin levels can be augmented by danazol therapy in PiZ individuals as well as those heterozygotes with severe deficiency of alpha1-antitrypsin. The clinical relevance of these increases in serum alpha1-antitrypsin remains speculative, but these findings suggest that danazol may provide a means of improving the protease-antiprotease balance in these individuals and thus impede the progression of their lung disease.
...
PMID:Danazol-induced augmentation of serum alpha 1-antitrypsin levels in individuals with marked deficiency of this antiprotease. 696 89
An autoantibody that we hypothesize to react with the reactive center of the plasma serine proteinase inhibitor,
C1 inhibitor
(
C1INH
), has been found in a patient with acquired
C1INH
deficiency. The Ab blocks the ability of
C1INH
to inhibit the hydrolysis of N-carbobenzyloxy-L-lysine thiobenzylester by purified C1s. A cryoprecipitate from the patient's plasma as well as the Ig fraction were able to block
C1INH
inhibition of C1s. The immunoaffinity purified Ab to
C1INH
from the patient's plasma Ig fraction neutralizes the inhibitory activity of
C1INH
in a dose-dependent manner and blocks the ability of normal
C1INH
to form a complex with C1s. The neutralizing activity of the purified Ab is reversed by a synthetic peptide that corresponds to the amino acid sequence in the P1 to P15 positions of the reactive center of
C1INH
but not by a 34-amino-acid
trypsin
peptide or 37-amino-acid elastase peptide derived from the C-terminus of
C1INH
. Western blot analysis indicated that the Ab is an oligoclonal Ig with kappa light chains.
...
PMID:Acquired C1 inhibitor deficiency as a result of an autoantibody to the reactive center region of C1 inhibitor. 751 2
The region COOH-terminal to the reactive center loop is highly conserved in the serine protease inhibitor (serpin) family. We have studied the structural consequences of three substitutions (Val451-->Met, Phe455-->Ser, and Pro476-->Ser) found in this region of
C1 inhibitor
in patients suffering from hereditary angioedema. Equivalent substitutions have been described in alpha 1-antitrypsin and antithrombin III. The mutant
C1 inhibitor
proteins were only partially secreted upon transient transfection into COS-7 cells and were found to be dysfunctional. Immunoprecipitation of conditioned media demonstrated that in the intact, uncleaved form they all bind to a monoclonal antibody which recognizes specifically the protease-complexed or reactive center-cleaved normal
C1 inhibitor
. A second indication for an intrinsic conformational change was the increased thermostability compared to the normal protein. Furthermore, gel filtration studies showed that the Val451-->Met and Pro476-->Ser mutant proteins, and to a lesser extent Phe455-->Ser, were prone to spontaneous multimerization. Finally, a reduced susceptibility to reactive center cleavage by
trypsin
was observed for all three mutants, and the cleaved Val451-->Met and Pro476-->Ser mutants failed to adopt the conformation recognized by a cleavage-specific monoclonal antibody. Investigation of plasmas of patients with the Val451-->Met or Pro476-->Ser substitutions showed that these dysfunctional proteins circulate at low levels and are recognized by the complex-specific antibody. These results strongly indicate a conformational change as a result of these carboxylterminal substitutions, such that anchoring of the reactive center loop at the COOH-terminal side is not achieved properly. We propose that this results in overinsertion of the loop into beta-sheet A, which subsequently leads to multimerization.
...
PMID:COOH-terminal substitutions in the serpin C1 inhibitor that cause loop overinsertion and subsequent multimerization. 785 21
We have determined the cause of an unusual
C1 inhibitor
abnormality in a large kindred. We previously found that half of serum
C1 inhibitor
molecules in affected kindred members are normal. The other half complexed with C1s but showed little complex formation with C1r. These molecules also appeared to be relatively resistant to digestion by
trypsin
. Taken together, the findings suggested that members of this kindred are heterozygous for an unusual
C1 inhibitor
mutation. Sequencing of genomic DNA from the kindred revealed that thymine has replaced cytosine in the codon for Ala443 (P2 residue) in one
C1 inhibitor
allele, resulting in substitution with a Val residue. To test the effect of this substitution, a mutant
C1 inhibitor
containing Ala443-->Val was constructed by site-directed mutagenesis and expressed in COS-1 cells. Both the Ala443-->Val mutant and the wild-type
C1 inhibitor
complexed completely with C1s, kallikrein, and coagulation Factor XIIa after incubation at 37 degrees C for 60 min. In contrast, the mutant inhibitor failed to complex completely with C1r under the same conditions. Time course analysis showed that the ability of the mutant to complex with C1s is also impaired: although it complexed completely in 60 min, the rate of complex formation during a 0-60-min incubation was decreased compared with wild-type
C1 inhibitor
. The mutant inhibitor also formed a complex with
trypsin
, a serine protease that cleaves, and is not inhibited by, wild-type
C1 inhibitor
. The Ala443-->Val mutation therefore converts
C1 inhibitor
from a substrate to an inhibitor of
trypsin
. These studies emphasize the role of the P2 residue in the determination of target protease specificity.
...
PMID:Unique C1 inhibitor dysfunction in a kindred without angioedema. II. Identification of an Ala443-->Val substitution and functional analysis of the recombinant mutant protein. 788 78
We have described hereditary incomplete deficiency of the fourth component of complement (C4) in 10 members of a large kindred. C4 deficiency in this kindred is not linked to C4 loci in the HLA region. C4 synthesis is decreased, and C4 catabolism is normal in kindred members with low serum C4 levels. We have discovered a uniquely dysfunctional
C1 inhibitor
in all C4-deficient members of this kindred.
C1 inhibitor
dysfunction is revealed by incubating sera of affected members with EDTA, which destroys all C4 activity in these sera, but not in normal sera or sera from individuals with partial C4 deficiencies. The M(r) of
C1 inhibitor
purified from affected members is normal, but approximately 50% of this
C1 inhibitor
resists cleavage by
trypsin
(0.14 microM) at arg444, suggesting a substitution at this position. Moderate increases in
trypsin
, however, result in cleavage of the resistant molecules, which would not be expected if arg444 were the site of the mutation. All molecules in
C1 inhibitor
purified from affected members' plasma bind to activated C1s (C1-s), but approximately 50% of molecules in these preparations do not bind to activated C1r (C1r). These findings show that affected kindred members have a unique mutation in
C1 inhibitor
. The mutant
C1 inhibitor
does not prevent the activation of C1s by C1-r when serum Ca2+ is chelated by EDTA, but its inhibition of C1-s is normal in vivo, as shown by normal C2 levels, normal C4 catabolism, and absence of angioedema in C4-deficient members. The nature of the mutation, its selective failure to inhibit C1-r, and its relationship to decreased C4 synthesis remain to be defined.
...
PMID:Unique C1 inhibitor dysfunction in a kindred without angioedema. I. A mutant C1 INH that inhibits C1-s but not C1-r. 814 14
Bovine factor XIIa inhibitor was purified by an improved method employing affinity for heparin. N-terminal amino acid sequencing revealed a unique sequence without homology to any other known protein sequences. Peptide sequencing, however, showed that a part of the bovine factor XIIa inhibitor was homologous to human
C1-inhibitor
with a fraction of identical amino acid residues around 70%. Deglycosylation studies and carbohydrate analysis showed the presence of N- and O-linked carbohydrate. Bovine factor XIIa inhibitor did not inhibit plasma kallikrein and
trypsin
. The reactive site comprised an Arg-Asn bond, and represents the first example of asparagine as a P1' residue in Serpins with well documented inhibitory activity.
...
PMID:Bovine factor XIIa inhibitor. 845 51
Clearance rates in the guinea pig were determined for intact guinea pig and human
C1 inhibitor
, the complexes of both inhibitors with human Cls, beta factor XIIa and kallikrein, and for each inhibitor cleaved at its reactive centre with
trypsin
. Intact human and guinea pig
C1 inhibitor
were cleared from the circulation more slowly (t1/2s of 9-7 h and 12.1 h and fractional catabolic rates (FCRs) of 0.09 and 0.117) than any of their cleaved or complexed forms. The reactive centre-cleaved inhibitors were cleared with half-lives of 6.75 h for humans and 10.1 h for the guinea pig. The complexes with target proteases were catabolized much more rapidly, with half-lives ranging from 3-08 h to 4.3 h. The complexes with kallikrein were cleared more slowly than those with Cls and beta factor XIIa. Complexes prepared with the guinea pig and human inhibitors were cleared at equivalent rates. The free inactivated proteases were cleared at rates similar to the equivalent complexes, except for kallikrein, which was cleared more rapidly than its complex. The fact that the complexes with different target proteases differed in their catabolism and that protease and complex catabolism were similar suggests that protease may play a direct role in clearance.
...
PMID:The catabolism of intact, reactive centre-cleaved and proteinase-complexed C1 inhibitor in the guinea pig. 869 30
Activation of humoral and cellular participants in inflammation enhances the risk of postoperative bleeding and multiple organ damage in cardiopulmonary bypass (CPB). We now compare the effects of heparin alone in combination with nafamostat mesilate (NM), a protease inhibitor with specificity of
trypsin
-like enzymes, in an extracorporeal circuit which simulates CPB. NM significantly inhibits the release of platelet beta-thromboglobulin (beta TG) at 60 and 120 min. Platelet counts do not differ. ADP-induced aggregation decreases in circuits with NM, which is due to a direct effect of NM on platelet function. NM prevents any significant release of neutrophil elastase; at 120 min, plasma elastase-alpha 1-antitrypsin complex is 0.16 micrograms/ml in the NM group and 1.24 micrograms/ml in the control group. NM completely inhibits formation of complexes of
C1 inhibitor
with kallikrein and FXIIa. NM does not alter markers of complement activation (C1-
C1-inhibitor
complex and C5b-9), or indicators of thrombin formation (F1.2). However, at 120 min, thrombin activity as measured by release of fibrinopeptide A is significantly decreased. The data indicate that complement activation during CPB correlates poorly with neutrophil activation and that either kallikrein or FXIIa or both may be more important agonists. The ability of NM to inhibit two important contact system proteins and platelet and neutrophil release raises the possibility of suppressing the inflammatory response during clinical CPB.
...
PMID:Nafamostat mesilate, a broad spectrum protease inhibitor, modulates platelet, neutrophil and contact activation in simulated extracorporeal circulation. 871 83
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