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Symptom
Drug
Enzyme
Compound
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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)
Meprin-a is a metalloendopeptidase present at high levels in the kidney brush border of some inbred mouse strains. Meprin-b is a latent metallo-endopeptidase, activated by
trypsin
-mediated proteolysis in vitro, that is present at similar activities (after activation) in all mouse strains. Meprin (a mixture of a and b forms) was purified from a high-
meprin
Mep-1a/a animal, and Lys-C peptides of this preparation were sequenced. The sequence data were used to direct the synthesis of peptides that were conjugated to albumin and used as immunogens. One of these antisera was specific to meprin-b and thus provided a specific tool to monitor expression of this form of
meprin
in different mouse strains.
...
PMID:Immunological characterisation of different meprin species in mice. 188 59
The proteinase
meprin
-A is a disulfide-linked tetramer of 90-kDa glycoprotein subunits. It is expressed at high levels in kidney brush border membranes of random bred and certain inbred strains of mice. Some mouse strains (e.g. C3H/He) do not express
meprin
-A subunits, but do produce a similar but less well characterized metalloendopeptidase,
meprin
-B. In the present study,
meprin
-B was purified from C3H/He mouse kidneys to electrophoretic homogeneity, and the relationship between it and
meprin
-A was investigated. The papain-solubilized form of
meprin
-B was similar to
meprin
-A in amino acid composition, molecular mass, secondary, and quaternary structure. However, immunoblots indicated that the enzymes have some common and some distinct epitopes. Lectin blots indicated both enzymes have high mannose and/or complex biantennary oligosaccharides, but there are differences in the complex-type glycosylation. Peptide maps and sequencing of cyanogen-bromide fragments of the enzymes revealed some different amino acid sequences. Thermal inactivation studies indicated that
meprin
-B was much less stable than
meprin
-A; the half-life for inactivation at 58 degrees C for
meprin
-A was 50 min, whereas for
meprin
-B it was less than 3 min. Both enzymes hydrolyzed azocasein and insulin B chain, but limited proteolysis of the enzymes with
trypsin
activated
meprin
-B 5-20-fold, whereas
meprin
-A was activated 2-fold at most. Analysis of hydrolysis products of the oxidized insulin B chain revealed some common and some distinct sites of cleavage. Bradykinin was a good substrate for
meprin
-A, while it was not hydrolyzed by
meprin
-B. A synthetic peptide, YLVC(SO3-)GERG, derived from insulin B chain was hydrolyzed faster by
meprin
-B than
meprin
-A, and neither enzyme was activated by
trypsin
treatment against this substrate. Taken together, the data indicate that the two metalloendopeptidases have many similarities but are distinct enzymes.
...
PMID:Meprin-A and -B. Cell surface endopeptidases of the mouse kidney. 189 22
1. Inbred mouse strains differ markedly in the expression of a kidney brush border metalloendopeptidase,
meprin-a
. 2. Brush border preparations from mice of the low-
meprin-a
phenotype (specific activities less than 5% of the high-
meprin-a
trait) contain a metallo-endopeptidase, meprin-b, that is larger than
meprin-a
, and which is inactive unless the membrane preparations are treated with
trypsin
. 3. This cryptic metallo-endopeptidase has been previously postulated to be a stalled precursor of
meprin-a
. 4. We show here that meprin-b is present in all mice-high and low
meprin-a
phenotypes--and that this activity is similar in substrate specificity and amount present in the brush border. 5. Meprin-b may therefore be a distinct gene product that is independent of
meprin-a
phenotype.
...
PMID:A cryptic meprin-like proteolytic activity in mouse kidney brush border membranes. 228 66
Inbred mice can be phenotypically divided into two groups: those that contain high levels of a kidney metallo-endopeptidase activity (
meprin-a
) and those with low
meprin-a
activity. In studies to investigate the molecular basis for the heterogeneity in the expression of this proteinase activity, we found a latent metallo-proteinase activity associated with kidney membranes of C3H/HeJ mice, a low activity strain. The latent proteinase was activated by treatment of kidney brush border membranes with
trypsin
and was purified from solubilized C3H kidney membranes. Purified preparations of the C3H latent proteinase (referred to as meprin-b) contained three major proteins of subunit molecular weights 90,000, 140,000, and 160,000. In the absence of reducing agents, four 90,000-Da subunits are covalently linked by S-S bridges. The two higher molecular mass proteins are not covalently linked to each other or to the 90,000-Da subunits. However, cross-linking and affinity chromatography studies indicated that the proteins in the meprin-b preparation were tightly associated. By contrast, purified
meprin-a
contains only 85,000-Da subunit proteins linked by S-S bridges to form a tetramer. Endoglycosidase F treatment decreased the mass of the 90,000-Da meprin-b subunit and the 85,000-Da
meprin-a
subunit to polypeptides of 65,000-70,000 Da. The 90,000- and 85,000-Da subunits are immunologically similar, in that polyclonal antibodies prepared against one of the subunits cross-react with the other. The substrate specificities and inhibitor profiles of purified preparations of
meprin-a
and meprin-b are also similar. These data are consistent with the proposition that meprin-b is a polymorphic form of
meprin-a
that is incompletely processed in vivo.
...
PMID:A latent proteinase in mouse kidney membranes. Characterization and relationship to meprin. 304 23
The biosynthesis of the membrane-bound metalloendopeptidase
meprin
was studied after the introduction of cDNAs encoding the rat
meprin
alpha and beta subunits into human 293 cells. When expressed individually the
meprin
alpha subunit was found to be primarily secreted into the culture medium, while the beta subunit was determined to be an integral membrane protein. Coexpression of the alpha and beta subunits results in the localization of both subunits to the plasma membrane. In this case the alpha subunit is specifically released from the cell surface by dithiothreitol, indicating the alpha subunit is associated with the membrane via disulfide bond(s) to the beta subunit. Meprin expressed in 293 cells is similar to the rat kidney enzyme in that it forms disulfide-linked dimers and has a similar pattern of glycosylation. However, the expressed protein displayed no detectable peptidase activity against four
meprin
substrates. Processing of the alpha subunit was followed after the introduction of sequences coding for the human c-myc peptide epitope EQKLISEEDL into its cDNA in the region of its prosequence and at the COOH terminus. Detection of the resulting proteins using a monoclonal antibody specific for the c-myc epitope indicates the alpha subunit is processed at its COOH terminus but retains the prosequence which is absent from the enzyme purified from rat kidney. Limited
trypsin
digestion of
meprin
precursors expressed in 293 cells results in both the activation of the enzyme and the removal of the prosequence. This result supports the hypothesis of Bode et al. (Bode W., Gomis-Ruth, F. X., Huber, R., Zwilling, R., and Stocker, W. (1992) Nature 358, 164-167) that
meprin
and other astacin family proteases require removal of NH2-terminal prosequences at the junction of the astacin protease domain for zymogen activation. Trypsin-activated
meprin
was assayed with the protein substrate azocasein and three synthetic peptide substrates. The membrane-bound beta subunit was found to be more active than the secreted alpha subunit against azocasein but much less active toward the synthetic peptide substrates.
...
PMID:Expression of meprin subunit precursors. Membrane anchoring through the beta subunit and mechanism of zymogen activation. 751 Feb 89
Enterokinase is a serine protease of the duodenal brush border membrane that cleaves trypsinogen and produces active
trypsin
, thereby leading to the activation of many pancreatic digestive enzymes. Overlapping cDNA clones that encode the complete human enterokinase amino acid sequence were isolated from a human intestine cDNA library. Starting from the first ATG codon, the composite 3696 nt cDNA sequence contains an open reading frame of 3057 nt that encodes a 784 amino acid heavy chain followed by a 235 amino acid light chain; the two chains are linked by at least one disulfide bond. The heavy chain contains a potential N-terminal myristoylation site, a potential signal anchor sequence near the amino terminus, and six structural motifs that are found in otherwise unrelated proteins. These domains resemble motifs of the LDL receptor (two copies), complement component Clr (two copies), the metalloprotease
meprin
(one copy), and the macrophage scavenger receptor (one copy). The enterokinase light chain is homologous to the
trypsin
-like serine proteinases. These structural features are conserved among human, bovine, and porcine enterokinase. By Northern blotting, a 4.4 kb enterokinase mRNA was detected only in small intestine. The enterokinase gene was localized to human chromosome 21q21 by fluorescence in situ hybridization.
...
PMID:cDNA sequence and chromosomal localization of human enterokinase, the proteolytic activator of trypsinogen. 771 57
Enterokinase is a protease of the intestinal brush border that specifically cleaves the acidic propeptide from trypsinogen to yield active
trypsin
. This cleavage initiates a cascade of proteolytic reactions leading to the activation of many pancreatic zymogens. The full-length cDNA sequence for bovine enterokinase and partial cDNA sequence for human enterokinase were determined. The deduced amino acid sequences indicate that active two-chain enterokinase is derived from a single-chain precursor. Membrane association may be mediated by a potential signal-anchor sequence near the amino terminus. The amino terminus of bovine enterokinase also meets the known sequence requirements for protein N-myristoylation. The amino-terminal heavy chain contains domains that are homologous to segments of the low density lipoprotein receptor, complement components C1r and C1s, the macrophage scavenger receptor, and a recently described motif shared by the metalloprotease
meprin
and the Xenopus A5 neuronal recognition protein. The carboxyl-terminal light chain is homologous to the
trypsin
-like serine proteases. Thus, enterokinase is a mosaic protein with a complex evolutionary history. The amino acid sequence surrounding the amino terminus of the enterokinase light chain is ITPK-IVGG (human) or VSPK-IVGG (bovine), suggesting that single-chain enterokinase is activated by an unidentified
trypsin
-like protease that cleaves the indicated Lys-Ile bond. Therefore, enterokinase may not be the "first" enzyme of the intestinal digestive hydrolase cascade. The specificity of enterokinase for the DDDDK-I sequence of trypsinogen may be explained by complementary basic-amino acid residues clustered in potential S2-S5 subsites.
...
PMID:Enterokinase, the initiator of intestinal digestion, is a mosaic protease composed of a distinctive assortment of domains. 805 24
We have purified to homogeneity the enzyme in the kidney cortex which accounts for the vast majority of matrix-degrading activity at neutral pH. The purified enzyme has an apparent molecular mass of 350 kD by gel filtration and of 85 kD on SDS-PAGE under reducing conditions; and it degrades laminin, type IV collagen and fibronectin. The enzyme was inhibited by EDTA and 1,10-phenanthroline, but not by other proteinase inhibitors. The enzyme was not activated by organomercurials or by
trypsin
and was not inhibited by tissue inhibitors of metalloproteinases indicating that it is distinct from the other matrix-degrading metalloproteinases. Unexpectedly, the amino acid sequence of the NH2-terminal and two internal peptides of the enzyme showed complete homology to those alpha subunits of rat
meprin
, an enzyme previously shown to degrade azocasein and insulin B chain but not known to degrade extracellular matrix components. Immunoprecipitation studies, Western blot analyses and other biochemical properties of the purified enzyme confirm that the distinct matrix-degrading enzyme is indeed
meprin
. Our data also demonstrate that
meprin
is the major enzyme in the renal cortex capable of degrading components of the extracellular matrix. The demonstration of this hitherto unknown function of
meprin
suggests its potential role in renal pathophysiology.
...
PMID:An old enzyme with a new function: purification and characterization of a distinct matrix-degrading metalloproteinase in rat kidney cortex and its identification as meprin. 806 66
Endopeptidase-24.18 (E-24.18;
EC 3.4.24.18
) is a metallopeptidase of the astacin family and is highly expressed in kidney brush-border membranes of rodents. Rat E-24.18 consists of two disulphide-linked alpha/beta dimers [(alpha/beta)2]. In order to investigate the mechanisms of assembly and the importance of each subunit in the enzymic process, the cloned cDNAs for the rat alpha and beta subunits were transiently expressed either alone or together in COS-1 cells. Immunoblotting of cell extracts and spent culture media showed that, when expressed alone, the alpha subunit is secreted, whereas the beta subunit is membrane-bound. In alpha/beta-transfected cells, the alpha subunit remained membrane-bound, but could be released from the cell surface after papain treatment or after incubation with 10 mM dithiothreitol. Furthermore, mutants of the alpha subunit in which the putative C-terminal anchor domain was deleted could still form cell-associated alpha/beta dimers. These results are consistent with a topological model of E-24.18 in which the beta subunit is anchored in the plasma membrane and the alpha subunit is retained at the cell surface through disulphide bridge(s) with the beta subunit. Both the alpha and beta recombinant subunits expressed in COS-1 cells showed little azocasein-degrading activity. However, activity of either individual subunits of alpha/beta dimers was increased after mild
trypsin
digestion, suggesting that in COS-1 cells the enzymes are synthesized as zymogens. Finally, inactivation of the alpha subunit by site-directed mutagenesis of Glu-157, which is believed to play a role in catalysis, showed that both subunits participate in the enzymic activity of the heterodimer.
...
PMID:Expression of rat endopeptidase-24.18 in COS-1 cells: membrane topology and activity. 819 48
Endopeptidase-24.18 (
EC 3.4.24.18
, E-24.18) is an oligomeric Zn-ectoenzyme. The alpha and beta subunits have been cloned from both rat and mouse kidneys. The primary structure of these subunits revealed that they both contain the consensus Zn binding site and that they are members of the astacin family. Analysis of the hydropathy plot also suggested that they are anchored by a C-terminal hydrophobic domain. In order to verify the mode of anchoring of the rat E-24.18 alpha subunit and to test the functionality of the astacin-like domain in the alpha subunit when expressed alone, COS-1 cells were transfected with a cloned cDNA for rat alpha subunit. Despite the presence of its putative transmembrane domain, the alpha subunit was not anchored in the plasma membrane but rather secreted as a dimer into the culture medium. When the enzymatic activity of the secreted recombinant protein was tested in the azocasein degradation assay, the alpha subunit was found to be inactive. Activity could, however, be revealed after mild
trypsin
digestion. This activity was abolished by replacing the Glu-157 in the active site by Val. Taken together our results suggest that the alpha subunit of Endopeptidase-24.18 contains a latent astacin-like Zn metallopeptidase activity which could be secreted as a soluble enzyme by kidney and intestine.
...
PMID:Rat endopeptidase-24.18 alpha subunit is secreted into the culture medium as a zymogen when expressed by COS-1 cells. 826 84
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