Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.4.21.1 (
chymotrypsin
)
10,938
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Kallikrein inhibitor
in plasma (KIP) was purified, and the share in the kallikrein inhibitory capacity of guinea pig plasma was estimated by depletion of the inhibitory activity of KIP with anti-KIP IgG. And KIP was characterized the inhibitory activity using various proteases. The purified KIP exhibited a single band on SDS-gel electrophoresis and the molecular weight was 64,000. KIP inhibited plasma kallikrein dose-dependently and time-dependently, forming a complex with kallikrein with the molecular weight of 137,000. Since the kallikrein inhibitory capacity of guinea pig plasma was completely depleted by anti-KIP IgG that inactivated kallikrein inhibitory activity of KIP, KIP was likely to be the major kallikrein inhibitor in guinea pig plasma. KIP inhibited trypsin and elastase, but not
chymotrypsin
. The Inhibitory spectrum of KIP was different from the spectrum of each protease inhibitor in human plasma, but was similar to the spectrum of contrapsin in mouse plasma. These results indicated that guinea pig plasma had a different mechanism for kallikrein inhibition, compared with human plasma.
...
PMID:The major plasma kallikrein inhibitor in guinea pig plasma with contrapsin-like nature. 261 Jan 3
Kallistatin
, a human serine proteinase inhibitor, is a newly identified
tissue kallikrein inhibitor
. It binds strongly to tissue kallikrein but weakly to other serine proteinases such as
chymotrypsin
and elastase. The tissue distribution and changes in kallistatin levels in human diseases were characterized by using specific monoclonal and polyclonal antibodies against kallistatin.
Kallistatin
antigen levels in blood cells, fluids, and tissues measured with a specific enzyme-linked immunosorbent assay showed displacement curves that were parallel with those in purified kallistatin, indicating their immunologic identity. Expression of kallistatin mRNA in platelets, neutrophils, lymphocytes, monocytes, endothelial cells, hepatocytes, and colon and prostate carcinoma cells was identified by reverse transcription-polymerase chain reaction followed by Southern blot analysis. Plasma kallistatin concentration was 22.1 +/- 3.5 micrograms/ml in 30 normal subjects and 21.1 +/- 3.8 micrograms/ml in 5 patients with C1 inhibitor deficiency. A significantly reduced kallistatin level (7.2 +/- 2.5 micrograms/ml, p < 0.001) was seen in plasma samples from 9 patients with liver disease and 10 patients with sepsis (7.7 +/- 3.5 micrograms/ml, p < 0 .001). Further, kallistatin levels in 10 women taking oral contraceptives (19.8 +/- 3.8 micrograms/ml) and 21 pregnant women (14.9 +/- 3.3 microg/ml) were significantly lower than those seen in healthy individuals. These data suggest that kallistatin is found in plasma, is produced mostly in the liver, and can be consumed during sepsis. Its consumption in sepsis may indicate a protective role to prevent blood pressure lowering.
...
PMID:Kallistatin, a novel human tissue kallikrein inhibitor: levels in body fluids, blood cells, and tissues in health and disease. 864 66
A synthetic gene coding for the 55-amino acid protein hirustasin, a novel
tissue kallikrein inhibitor
from the leech Hirudo medicinalis, was generated by polymerase chain reaction using overlapping oligonucleotides, fused to the yeast alpha-factor leader sequence and expressed in Saccharomyces cerevisiae. Recombinant hirustasin was secreted mainly as incompletely processed fusion protein, but could be processed in vitro using a soluble variant of the yeast yscF protease. The processed hirustasin was purified to better than 97% purity. N-terminal sequence analysis and electrospray ionization mass spectrometry confirmed a correctly processed N-terminus and the expected amino acid sequence and molecular mass. The biological activity of recombinant hirustasin was identical to that of the authentic leech protein. Crystallized hirustasin alone and in complex with tissue kallikrein diffracted beyond 1.4 A and 2.4 A, respectively. In order to define the reactive site of the inhibitor, the interaction of hirustasin with kallikrein,
chymotrypsin
, and trypsin was investigated by monitoring complex formation in solution as well as proteolytic cleavage of the inhibitor. During incubation with high, nearly equimolar concentration of tissue kallikrein, hirustasin was cleaved mainly at the peptide bond between Arg 30 and Ile 31, the putative reactive site, to yield a modified inhibitor. In the corresponding complex with
chymotrypsin
, mainly uncleaved hirustasin was found and cleaved hirustasin species accumulated only slowly. Incubation with trypsin led to several proteolytic cleavages in hirustasin with the primary scissile peptide bond located between Arg 30 and Ile 31. Hirustasin appears to fall into the class of protease inhibitors displaying temporary inhibition.
...
PMID:Recombinant hirustasin: production in yeast, crystallization, and interaction with serine proteases. 900 82
Kallistatin
is a serpin with a unique P1 Phe, which confers an excellent inhibitory specificity toward tissue kallikrein. In this study, we investigated the P3-P2-P1 residues (residues 386-388) of human kallistatin in determining inhibitory specificity toward human tissue kallikrein by site-directed mutagenesis and molecular modeling. Human kallistatin mutants with 19 different amino acid substitutions at each P1, P2, or P3 residue were created and purified to compare their kallikrein binding activity. Complex formation assay showed that P1 Arg, P1 Phe (wild type), P1 Lys, P1 Tyr, P1 Met, and P1 Leu display significant binding activity with tissue kallikrein among the P1 variants. Kinetic analysis showed the inhibitory activities of the P1 mutants toward tissue kallikrein in the order of P1 Arg > P1 Phe > P1 Lys >/= P1 Tyr > P1 Leu >/= P1 Met. P1 Phe displays a better selectivity for human tissue kallikrein than P1 Arg, since P1 Arg also inhibits several other serine proteinases. Heparin distinguishes the inhibitory specificity of kallistatin toward kallikrein versus
chymotrypsin
. For the P2 and P3 variants, the mutants with hydrophobic and bulky amino acids at P2 and basic amino acids at P3 display better binding activity with tissue kallikrein. The inhibitory activities of these mutants toward tissue kallikrein are in the order of P2 Phe (wild type) > P2 Leu > P2 Trp > P2 Met and P3 Arg > P3 Lys (wild type). Molecular modeling of the reactive center loop of kallistatin bound to the reactive crevice of tissue kallikrein indicated that the P2 residue required a long and bulky hydrophobic side chain to reach and fill the hydrophobic S2 cleft generated by Tyr(99) and Trp(219) of tissue kallikrein. Basic amino acids at P3 could stabilize complex formation by forming electrostatic interaction with Asp(98J) and hydrogen bond with Gln(174) of tissue kallikrein. Our results indicate that tissue kallikrein is a specific target proteinase for kallistatin.
...
PMID:Roles of the P1, P2, and P3 residues in determining inhibitory specificity of kallistatin toward human tissue kallikrein. 1099 87
