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Enzyme
Compound
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Query: UNIPROT:P01034 (
cystatin C
)
3,397
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A novel immunoassay (PINC-ELISA) was designed using proteinase inhibitors of the cystatin superfamily (PINC) in the solid phase, to promote the selective capture of cysteine proteinases. The method was applied in the identification of papain-like antigens from parasitic protozoa. PINC of human origin, namely recombinant
cystatin C
(r-
cystatin C
) or low molecular weight kininogen were used in the assays to adsorb proteases contained in cell lysates from various trypanosomatids. The PINC-ELISA was at first optimized with the major cysteine proteinase from Trypanosoma cruzi (known as GP57/51 or
cruzipain
), an antigen whose serodiagnostic properties were previously established. Cruzipain is selectively adsorbed from crude extracts of T. cruzi onto PINC-coated wells; the finding that antibodies bind to epitopes located away from the sites of interaction with r-cystatin or low molecular weight kininogen has allowed for the screening of antibodies in chagasic sera, the methodology being advantageous in that it dispensed prior purification of the proteinase antigen. The PINC-ELISA was then carried out with lysates originating from Leishmania m. amazonensis (amastigotes) or Leishmania donovani (promastigotes). Complexes between solid-phase r-
cystatin C
and antigenic ligands in the lysates were again detected. The Leishmania molecules which bound to r-
cystatin C
, were respectively recognized by serum antibodies from mice chronically infected with L. amazonensis or from patients with visceral leishmaniasis. Direct evidence for the presence of cysteine proteinases in lysates from L. donovani was then obtained, using synthetic fluorogenic substrates.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Antigenicity of cystatin-binding proteins from parasitic protozoan. Detection by a proteinase inhibitor based capture immunoassay (PINC-ELISA). 776 45
African trypanosomes contain proteases that may be released into the bloodstream of their infected hosts. This paper describes a novel, combined isolation of a cysteine proteinase (called
trypanopain
-Tb) and a serine oligopeptidase (which we call oligopeptidase-Tb) from Trypanosoma brucei brucei, as well as a comparison of the activities of these two enzymes against several host regulatory molecules. The enzymes differed in various respects. Firstly, purified
trypanopain
-Tb was shown to readily cleave proteins such as gelatin maximally at acidic pH. In contrast, oligopeptidase-Tb, which is optimally active at alkaline pH, did not hydrolyse proteins larger than 4 kDa. However, it readily hydrolysed various polypeptides, including neurotensin and atrial natriuretic factor. The interaction of the two enzymes with mammalian protease inhibitors also differed. Cystatins and alpha2-macroglobulin effectively inhibited
trypanopain
-Tb, with the Ki values for
cystatin C
and low-molecular-mass kininogen (approximately 10(-11) M) predicting, that
trypanopain
-Tb is likely to be effectively controlled by these inhibitors if released into the host bloodstream. In contrast, oligopeptidase-Tb was not inhibited by serpins or (a2-macroglobulin, suggesting that it may remain active if released into the host bloodstream. In support of these in vitro results, the blood of trypanosome-infected rats displayed no
trypanopain
-Tb-like activity, but exhibited high oligopeptidase-Tb-like activity. Thus, while
trypanopain
-Tb seems likely to be confined to an intracellular role within the parasite, oligopeptidase-Tb has the potential to remain active in the host bloodstream and so contribute directly to pathogenesis.
...
PMID:Proteases from Trypanosoma brucei brucei. Purification, characterisation and interactions with host regulatory molecules. 870 74
Biotin-labelled peptidyl diazomethane inhibitors of cysteine proteinases, based on the N-terminal substrate-like segment of human
cystatin C
, a natural inhibitor of cysteine proteinases, were synthesized. These synthetic derivatives were tested as irreversible inhibitors of
cruzipain
, the major cysteine proteinase of Trypanosoma cruzi, to compare the kinetics of the inhibition of the parasite proteinase with that of the mammalian cathepsins B and L. The accessibility of the active sites of these proteinases to these probes was also investigated. The inhibition of
cruzipain
by Biot-LVG-CHN2 (where Biot represents biotinyl and L,V and G are single-letter amino acid residue abbreviations) and Biot-Ahx-LVG-CHN2 (where Ahx represents 6-aminohexanoic acid) was similar to that of unlabelled inhibitor. Biotin labelling of the inhibitor slowed the inhibition of both cathepsin B and cathepsin L. Adding a spacer arm (Ahx) between the biotin and the peptide moiety of the derivative increased the inhibition of cathepsin B but not that of cathepsin L. The discrimination provided by this spacer is probably due to differences in the topologies of the binding sites of proteinases, a feature that can be exploited to improve targeting of individual cysteine proteinases. Analysis of the blotted proteinases revealed marked differences in the accessibility of extravidin-peroxidase conjugate to the proteinase-bound biotinylated inhibitor. Cruzipain molecules exposed to Biot-LVG-CHN2 or Biot-Ahx-LVG-CHN2 were readily identified, but the reaction was much stronger when the enzyme was treated with the spacer-containing inhibitor. In contrast with the parasite enzyme, rat cathepsin B and cathepsin L treated with either Biot-LVG-CHN2 or Biot-Ahx-LVG-CHN2 produced no detectable bands. Papain, the archetype of this family of proteinases, was poorly labelled with Biot-LVG-CHN2, but strong staining was obtained with Biot-Ahx-LVG-CHN2. These findings suggest that optimized biotinylated diazomethanes might considerably improve their selectivity for the T. cruzi target enzyme.
...
PMID:Biotin-labelled peptidyl diazomethane inhibitors derived from the substrate-like sequence of cystatin: targeting of the active site of cruzipain, the major cysteine proteinase of Trypanosoma cruzi. 880 25
The parasitic protozoan Trypanosoma cruzi employs multiple molecular strategies to invade a broad range of nonphagocytic cells. Here we demonstrate that the invasion of human primary umbilical vein endothelial cells (HUVECs) or Chinese hamster ovary (CHO) cells overexpressing the B(2) type of bradykinin receptor (CHO-B(2)R) by tissue culture trypomastigotes is subtly modulated by the combined activities of kininogens, kininogenases, and kinin-degrading peptidases. The presence of captopril, an inhibitor of bradykinin degradation by kininase II, drastically potentiated parasitic invasion of HUVECs and CHO-B(2)R, but not of mock-transfected CHO cells, whereas the B(2)R antagonist HOE 140 or monoclonal antibody MBK3 to bradykinin blocked these effects. Invasion competence correlated with the parasites' ability to liberate the short-lived kinins from cell-bound kininogen and to elicit vigorous intracellular free calcium ([Ca(2+)](i)) transients through B(2)R. Invasion was impaired by membrane-permeable cysteine proteinase inhibitors such as Z-(SBz)Cys-Phe-CHN(2) but not by the hydrophilic inhibitor 1-trans-epoxysuccinyl-l-leucyl-amido-(4-guanidino) butane or
cystatin C
, suggesting that kinin release is confined to secluded spaces formed by juxtaposition of host cell and parasite plasma membranes. Analysis of trypomastigote transfectants expressing various cysteine proteinase isoforms showed that invasion competence is linked to the kinin releasing activity of
cruzipain
, herein proposed as a factor of virulence in Chagas' disease.
...
PMID:Host cell invasion by Trypanosoma cruzi is potentiated by activation of bradykinin B(2) receptors. 1106 78
