Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.6 (thromboplastin)
 13,278 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In chick embryo, certain paramyxoviruses mainly target the chorioallantois and the allantoamnion and show no extensive further spreading in the other organs. This has been explained by the possible presence of an endoprotease activating the viral fusion glycoprotein precursor in the allantoic and the amniotic fluid, and its absence in other places or organs. We previously isolated such an endoprotease from the allantoic fluid and demonstrated its identity with the clotting factor Xa. Exactly the same endoprotease by all the criteria including the N-terminal amino acid sequence was now isolated from the amniotic fluid. Thus, the factor Xa seems to be a major host determinant of the viral tropism in chick embryo.
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PMID:Isolation of factor Xa from chick embryo as the amniotic endoprotease responsible for paramyxovirus activation. 153 3

An essential step in paramyxovirus fusion (F) glycoprotein biosynthesis is the posttranslational endoproteolytic cleavage of the inactive precursor glycoprotein Fo by host cell proteases. When the Fo possesses a pair or a cluster of basic residues at the cleavage site, cleavage is catalyzed by a ubiquitous protease(s) and the infection is consequently pantropic. When the site is monobasic with a single arginine, cleavage is allowed to occur only by the enzyme(s) expressed in limited tissue types and the infection is localized there. We have isolated from chick embryo an example of the latter type of endoprotease specific for the single arginine motif and demonstrate its identity with the clotting factor Xa. The ectopic expression of the FXa appeared to be the sole determinant for the viral tropism in chick embryo. The latter type of protease specific for a paired or multiple basic cleavage motif have neither been identified nor characterized extensively. We show here that this cleavage can be induced by the yeast KEX2 protease, a unique subtilisin-like serine protease, responsible for pro factor processing at the paired basic sites.
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PMID:Paramyxovirus tropism dependent on host proteases activating the viral fusion glycoprotein. 193 Jan 2

Botulinum neurotoxin type A (BoNT/A) selectively and irreversibly inhibits acetylcholine release from peripheral nerve endings. While the toxin's heavy (H) chain contributes to neuronal binding and internalization, its light (L) chain is a Zn(2+)-dependent endoprotease that intracellularly cleaves synaptosomal-associated protein of M(r) = 25 kDa (SNAP-25). For research and clinical exploitation of this uniquely-acting neurotoxin, recombinant wild-type L chain was produced together with a mutant in which His227 in the Zn(2+)-binding motif was substituted by Tyr. The PCR-amplified wild-type and mutant L chain genes were cloned, fused to the gene for maltose-binding protein, and expressed at high levels in Escherichia coli. The soluble fusion proteins were purified using amylose affinity chromatography, and, after factor Xa cleavage, the free L chains were isolated. The wild-type was shown to proteolyze SNAP-25 at a rate approaching that of the native chain while the mutant was inactive. Reconstitution of the pure wild-type L chain with native homogeneous H chain yielded a disulfide-linked dichain form that inhibited neuromuscular transmission in vitro and produced the symptoms of botulism in vivo. After reconstitution with the H chain, the Tyr227 mutant L chain failed to show any neuroparalytic activity in either of these assays. This methodology allows, for the first time, routine preparation of recombinant forms of the L chain that are needed to decipher the molecular details of its interaction with substrate and, thereby, assist the design of effective inhibitors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression and purification of the light chain of botulinum neurotoxin A: a single mutation abolishes its cleavage of SNAP-25 and neurotoxicity after reconstitution with the heavy chain. 757 32

Specific proteolysis by the tetanus toxin light chain of a vesicle-associated membrane protein (VAMP) involved in exocytosis is thought to underlie its intracellular blockade of neurotransmitter release. To substantiate this mechanism, recombinant light chain was expressed as a maltose binding protein-light chain fusion product in Escherichia coli. After purification of affinity chromatography and cleavage with factor Xa, the resultant light chain was isolated and its identity confirmed by Western blotting and N-terminal sequencing. It exhibited activity similar to that of the native light chain in proteolyzing its target in isolated bovine small synaptic vesicles and in hydrolyzing a 62-residue synthetic polypeptide spanning the cleavage site of the substrate. The importance of Glu234 in the catalytic activity of the light chain, possibly analogous to Glu143 of thermolysin, was examined using site-directed mutagenesis. Changing Glu234 to Ala abolished the protease activity of the light chain, but its ability to bind the polypeptide substrate was retained. Each recombinant light chain could be reconstituted with the heavy chain of tetanus toxin, yielding the same level of disulfide-linked species as the two native chains. Whereas the toxin formed with wild-type light chain exhibited appreciable neuromuscular paralysis activity and mouse lethality, the equivalent dichain material containing the Ala234 mutant lacked neurotoxicity in both the in vitro and in vivo assays. Thus, these results demonstrate directly, for the first time, that the lethality of tetanus toxin and its inhibition of exocytosis in intact neurons are attributable largely, if not exclusively, to endoprotease activity.
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PMID:A single mutation in the recombinant light chain of tetanus toxin abolishes its proteolytic activity and removes the toxicity seen after reconstitution with native heavy chain. 791 29

Recombinant vasoactive intestinal polypeptide (VIP) analogs were expressed in Escherichia coli as a fusion protein containing tandemly repeated multiple copies of a synthetic VIP gene joined to glutathione S-transferase. The encoded protein contains VIP units separated by a linker peptide, potentially excisable by a double cleavage with endoprotease factor Xa and hydroxylamine. Expression of different polyVIP genes, from 1 to 32 units, was detected and the production of a 16 VIP polymer was performed. MonoVIP analogs appended by 5 or 10 amino acids at their C terminus were released by factor Xa from this polymerized product. They were then submitted to hydroxylamine cleavage to remove the linker sequence to finally obtain a recombinant VIP analog devoid of any amino acid extension. The biological activity of the recombinant polyVIP and VIP analogs was tested. Although less efficient than the natural neuropeptide, some of these components bound to VIP receptor, activated adenylate cyclase in human colonic adenocarcinoma cells and displayed a relaxation activity on guinea pig tracheal rings.
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PMID:Production, analysis and bioactivity of recombinant vasoactive intestinal peptide analogs. 872 6

We describe here the preparation of ratiometric luminescent probes that contain two well-separated emission peaks produced by a sequential bioluminescence resonance energy transfer (BRET)-fluorescence resonance energy transfer (FRET) process. The probes are single soluble fusion proteins consisting of a thermostable firefly luciferase variant that catalyzes yellow-green (560 nm maximum) bioluminescence and a red fluorescent protein covalently labeled with a near-Infrared fluorescent dye. The two proteins are connected by a decapeptide containing a protease recognition site specific for factor Xa, thrombin, or caspase 3. The rates of protease cleavage of the fusion protein substrates were monitored by recording emission spectra and plotting the change in peak ratios over time. Detection limits of 0.41 nM for caspase 3, 1.0 nM for thrombin, and 58 nM for factor Xa were realized with a scanning fluorometer. This method successfully employs an efficient sequential BRET-FRET energy transfer process based on firefly luciferase bioluminescence to assay physiologically important protease activities and should be generally applicable to the measurement of any endoprotease lacking accessible cysteine residues.
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PMID:Firefly Luciferase-Based Sequential Bioluminescence Resonance Energy Transfer (BRET)-Fluorescence Resonance Energy Transfer (FRET) Protease Assays. 2742 98