EC:3.4.21.4 - FACTA Search

Gene/Protein Disease 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)

By treatment of chorioallantoic membranes from embryonated eggs with collagenase and hyaluronidase before the conventional application of trypsin cells could be grown in culture which supported growth of a large variety of myxoviruses, herpesviruses, avian reoviruses and the infectious bronchitis virus of chickens. The cultures could be used for sensitive plaque assays and neutralization tests.
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PMID:In vitro cultivation of cells from the chorioallantoic membrane of chick embryos. 16 93

The chronic, progressively destructive bronchitis of patients with cystic fibrosis (CF) is characterized by an important imbalance between tissue destroying granulocyte proteases such as granulocyte elastase (GE) and its physiological inhibitors in bronchial secretions. Recent in vitro studies suggest, that proteases derived from bacteria or endogenous proteases may contribute to inactivation of physiological inhibitors of GE. Since only trypsin-unreactive alpha 1-proteinase inhibitor (alpha 1-PI) was detected in CF bronchial secretions, we attempted to identify the mechanism of inactivation of alpha 1-PI. We found a heat stable, serine protease-like enzymatic activity capable of degrading 125I-labelled alpha 1-PI extensively in 22 infected but not in one non-infected CF bronchial secretion. In infected secretions, only degraded alpha 1-PI, which did not migrate like oxidized alpha 1-PI in tandem-crossed immunoelectrophoresis, was detectable. We conclude, that free GE in excess as well as GE bound to bronchial mucosal inhibitor may partly account for the alpha 1-PI-cleaving activity, but that other yet unknown bacterial or host serine proteases also contribute to alpha 1-PI inactivation.
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PMID:Proteolytic inactivation of alpha 1-proteinase inhibitor in infected bronchial secretions from patients with cystic fibrosis. 202 37

Antigenic and genomic relationships among tissue culture-adapted turkey enteric coronavirus (TCV) isolates, three strains of avian infectious bronchitis virus (IBV), and mammalian coronaviruses were investigated. Immunoblotting and immunoprecipitation experiments using polyclonal antisera showed that the four major structural proteins of TCV cross-reacted with the four homologous proteins of bovine enteric coronavirus (BCV), the N and M proteins of mouse hepatitis virus serotype 3, and the N protein of IBV. Close antigenic relationships between TCV and BCV were also established by seroneutralization and hemagglutination-inhibition. Of 49 monoclonal antibodies produced against either TCV or BCV, 11 differentiated the two viruses. Five of these monoclonal antibodies had neutralizing activities and were directed to either the peplomeric S (gp200-gp100) or hemagglutinin HE (gp140-gp65) glycoproteins. BCV cDNA probes tested on purified viral preparations and coronavirus-positive (by electron microscopy) fecal samples from diarrheic turkey poults confirmed the relatedness of TCV and BCV. The two viruses produced distinct cytopathic changes in HRT-18 cells in the presence of trypsin, whereas only TCV isolates were able to reproduce the clinical symptoms in turkey poults. Their matrix (M) proteins undergo different glycosylation processes.
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PMID:Antigenic and genomic relationships among turkey and bovine enteric coronaviruses. 215 66

Polymorphonuclear leucocyte (PMN) accumulation is associated with damage to airways epithelial cells in bronchitis, bronchiectasis and some forms of asthma. PMNs release several molecules which may mediate this damage, particularly proteases and oxidants. Using an in vitro model of intact human amnionic epithelial cells (EC) attached to native basement membrane (BM), we evaluated the capacity of several proteases and oxidants to induce detachment of EC from the BM. Maximum desquamation was observed with collagenase, elastase and trypsin, with minimum effective concentrations required to produce 50% EC-desquamation (MEC50) for highly purified collagenase, pancreatic elastase, human leucocyte elastase, human leucocyte cathepsin-G (Cath-G), trypsin, and kallikrein being 3616 +/- 989 U/mL, 32.3 +/- 14.7 U/mL, 85.8 +/- 26.7 U/mL, 360 +/- 20 U/mL, 340 +/- 49 BAEE U/mL and 300 +/- 23 U/mL, respectively. Urokinase (20 U/mL) and plasmin (500 U/mL) produced no desquamation in this system. Relatively high concentrations of oxidants also produced detachment (MEC50 for H2O2 and HOCl being 0.59 +/- 0.006 mol/L and 0.015 +/- 0.009 mol/L, respectively) and pretreatment of EC membranes with non-detaching concentrations of H2O2 rendered them 10-fold more susceptible to protease-induced desquamation, suggesting synergism. Reduced glutathione (GSH), N-acetyl cysteine (NAC), ethylenediamine tetra-acetic acid (EDTA) and 1,10 phenanthroline ablated collagenase induced EC-detachment. Elastase induced detachment was sensitive to inhibition by phenyl methyl sulfonyl fluoride (PMSF) and alpha 1-anti-proteinase (alpha 1-AP) and, to a lesser extent by aprotinin; trypsin-induced detachment was ablated by PMSF, alpha 1-AP and soybean trypsin inhibitor (SBTI) but not by 1,10 phenanthroline or EDTA. Cath-G induced detachment was profoundly inhibited by SBTI, GSH and NAC. These data demonstrate that human EC can be detached from intact BM by several PMN products, including collagenase, Cath-G and elastase, and that PMN-mediated detachment can be prevented by Cath-G and collagenase inhibitors. The data suggest a role for proteases, particularly Cath-G and collagenase, plus oxidants in synergism with proteases, in mediating PMN-induced EC detachment.
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PMID:Study of human epithelial cell detachment and damage: effects of proteases and oxidants. 220 Jul 49

As many as 95 children staying at a clinic were examined for the proteinase-inhibitory balance of the bronchoalveolar secretion in acute pneumonia, relapsing bronchitis and chronic pneumonia in the stage of exacerbation. In all the three diseases, there was a rise of the protein content, trypsin-like activity and alpha 2-macroglobulin level. In acute pneumonia, free antitryptic activity and the level of acid-resistant inhibitors increased; in relapsing bronchitis, these parameters remained within the limit of control values, and in chronic pneumonia, they significantly reduced. The degree of inhibition of the antiproteinase potential rose as the catarrhal bronchitis progressed to the purulent pattern.
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PMID:[Changes in protease inhibitor balance of the bronchoalveolar secretion in children with inflammatory lung diseases]. 238 64

In patients with pulmonary diseases, serum alpha 1-antitrypsin (AAT) was measured by three methods: radial immunodiffusion (RID), trypsin inhibitory capacity assay (TIC) and by rate nephelometry with the immunosystem (NIA) in a total of 369 subjects (sarcoidosis, n = 35; asthma, n = 41; chronic obstructive bronchitis, n = 62; bronchogenic carcinoma, n = 93; pneumonia, n = 24; tuberculosis, n = 43; fibrosis, n = 22; healthy controls, n = 49). Considering all patients, AAT was found to be significantly elevated (p less than 0.01-0.001) in all methods (RID: 3.3 +/- 1.0 g/l; TIC: 2.7 +/- 0.4 g/l; NIA: 2.1 +/- 0.8 g/l) compared to healthy controls (RID: 2.1 +/- 0.3 g/l; TIC: 2.1 +/- 0.4 g/l; NIA: 1.2 +/- 0.3 g/l). The lowest mean values were found by means of the NIA method. The best correlation coefficient (R) was evaluated between the TIC and the NIA method (R = 0.96) in healthy controls, but the best correlated methods were the RID and the NIA (R = 0.93) in patients with pulmonary disease.
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PMID:Comparison of three methods for the determination of serum alpha-1-antitrypsin in patients with pulmonary diseases. 250 24

The Minnesota strain of turkey enteric coronavirus (TCV) was grown on a human rectal tumor (HRT-18) cell line in the presence of radiolabeled amino acids and glucosamine to analyse virion structural proteins. In addition to the 52,000 unglycosylated nucleocapsid protein, three major glycoprotein species were found to be associated with the viral envelope. A predominant glycosylated protein with a molecular weight of 22-24,000 represented the transmembrane matrix protein. Larger glycoproteins with apparent molecular weights of 180-200,000 (gp 200), 120-125,000 (gp 120) and 95-100,000 (gp 100) were associated to the characteristic large bulbous projections (peplomers) located at the surface of the virion. The gp 100 and gp 120 species apparently arose from a proteolytic cleavage of gp 200, as suggested by digestion studies with trypsin and chymotrypsin. An additional large glycoprotein with mol. wt. of 140,000 (gp 140), that behaved as a disulfide-linked dimer of a 66,000 molecule, was found to be associated to granular projections located near the base of the large peplomers. Digestion studies with trypsin, bromelain and pronase demonstrated that gp 140 was related to the hemagglutinating activity of the virus. An inner membranous sac or tongue-shaped structure could be visualized in the interior of the viral particles following treatment with pronase. In contrast, trypsin or chymotrypsin treatments resulted in evaginations ("budding") on the virus surface. Progeny viral particles produced in TCV-infected cell cultures in the presence of tunicamycin lacked both types of surface projections, as demonstrated by electron microscopy and electrophoresis. The matrix protein also appeared to be reduced to its unglycosylated form, concomitant with a considerable loss of its antigenicity. Thus, with respect to its morphological and biochemical characteristics, TCV resembles viruses belonging to the group of mammalian hemagglutinating coronaviruses, but differs in that both types of envelope glycoproteins are N-glycosylated as in case of the avian infectious bronchitis virus.
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PMID:Identification and location of the structural glycoproteins of a tissue culture-adapted turkey enteric coronavirus. 267 55

An infectious bronchitis virus (IBV) strain isolated from commercial layers experiencing urolithiasis was 50-100 nm in size and possessed widely spaced, club-shaped surface projections. It was sensitive to lipid solvents and exhibited responses characteristic of IBV when exposed to heat, divalent cations, and trypsin. Reciprocal virus-neutralization tests demonstrated it to be closely related to Gray, JMK, Delaware 2868, and Delaware 2897 strains of IBV.
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PMID:An infectious bronchitis virus isolated from chickens experiencing a urolithiasis outbreak. I. In vitro characterization studies. 283 71

The spike protein of avian infectious bronchitis coronavirus comprises two glycopolypeptides S1 and S2 derived by cleavage of a proglycopolypeptide So, the nucleotide sequence of which has recently been determined for the Beaudette strain (Binns, M.M. et al., 1985, J. Gen. Virol. 66, 719-726). The order of the two glycopolypeptides within So is aminoterminus(N)-S1-S2-carboxyterminus(C). To locate the N-terminus of S2 we have performed partial amino acid sequencing on S2 from IBV-Beaudette labelled with [3H]serine and from the related strain labelled with [3H]valine, leucine and isoleucine. The residues identified and their positions relative to the N-terminus of S2 were: serine, 13; valine, 6, 12; leucine, none in the first 20 residues; isoleucine, 2, 19. These results identified the N-terminus of S2 of IBV-Beaudette as serine, 520 residues from the N-terminus of S1, excluding the signal sequence. Immediately to the N-terminal side of residue 520 So has the sequence Arg-Arg-Phe-Arg-Arg; similar basic connecting peptides are a feature of several other virus spike glycoproteins. It was deduced that for IBV-Beaudette S1 comprises 519 residues (Mr 57.0K) or 514 residues (56.2K) if the connecting peptide was to be removed by carboxypeptidase-like activity in vivo while S2 has 625 residues (69.2K). Nucleotide sequencing of the cleavage region of the So gene of IBV-M41 revealed the same connecting peptide as IBV-Beaudette and that the first 20 N-terminal residues of S2 of IBV-M41 were identical to those of the Beaudette strain. IBV-Beaudette grown in Vero cells had some uncleaved So; this was cleavable by 10 micrograms/ml of trypsin and of chymotrypsin. Partial N-terminal analysis of S1 from IBV-M41 identified leucine and valine residues at positions 2 and 9 respectively from the N-terminus. This confirms the identification, made by Binns et al. (1985), of the N-terminus of S1 and the end of the signal sequence of the IBV-Beaudette spike propolypeptide. N-terminal sequencing of [3H]leucine-labelled IBV-Beaudette membrane (M) polypeptide showed leucine residues at positions 8, 16 and 22 from the N-terminus; these results confirm the open reading frame identified by M.E.G. Boursnell et al. (1984, Virus Res. 1, 303-313) in the nucleotide sequence of M. The N-terminus of the nucleocapsid (N) polypeptide appeared to be blocked.
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PMID:Coronavirus IBV: partial amino terminal sequencing of spike polypeptide S2 identifies the sequence Arg-Arg-Phe-Arg-Arg at the cleavage site of the spike precursor propolypeptide of IBV strains Beaudette and M41. 301 May 95

[35S]methionine-labelled avian infectious bronchitis virus (IBV) (strain 41) and its purified protein components and virions of IBV-Beaudette were incubated with 10 proteases. Several proteases hydrolysed all or some of the membrane glycopolypeptide (M; Mr 30K) and removed about 1.3K of peptide from the amino-(N-)-terminus plus both glycans, as determined by SDS-polyacrylamide gel electrophoresis. N-terminal analysis of [3H]isoleucine-labelled M after hydrolysis by bromelain revealed that the first nine residues had been removed. After the virions had been permeabilised with saponin, a further 2.5K decrease in molecular weight was produced and this was shown to be from the carboxy-(C-)terminus. When considered with the hydropathicity plot analysis of the amino acid sequence of M (Boursnell, M.E.G. et al., 1984, Virus Res. 1, 303-313) these results suggest that as few as 9-20 N-terminal amino acid residues may protrude at the outer membrane surface and that there is a highly protease sensitive sequence of an estimated 20-25 residues at the C-terminus of M exposed in the lumen of the virion. S2 but not S1 was cleaved to a major glycopolypeptide of approximately 71K by several proteases, and to 76K by trypsin. N-terminal sequencing of the 71K glycopolypeptide revealed that it had the same N-terminus as intact S2. After hydrolysis in the presence and absence of saponin it was concluded that S2 is very sensitive to hydrolysis near its carboxy terminus at residues close to the outer membrane surface.
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PMID:Coronavirus IBV glycopolypeptides: locational studies using proteases and saponin, a membrane permeabilizer. 301 May 96

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