EC:3.4.21.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tissue transglutaminase (EC 2.3.2.13) is a calcium-activated enzyme that cross-links specific substrate proteins into insoluble, protease-resistant, high molecular weight complexes. Because the neurofibrillary tangles in Alzheimer disease have similar biochemical characteristics, and because the microtubule-associated protein tau is the predominant component of these structures, the substrate properties of tau with respect to transglutaminase were investigated. Bovine tau and recombinant human tau isoforms rapidly form high molecular weight, cross-linked polymers on incubation with transglutaminase. Polyamine incorporation assays indicate that bovine tau is an excellent substrate of transglutaminase, with a Km of 10.4 +/- 2.2 microM and a Vmax of 40.9 +/- 4.5 nmol/mg of enzyme/min. Individual recombinant human tau isoforms are not equivalent with respect to transglutaminase, as the smallest isoform T3 (352 amino acids) is not as good a substrate as the larger isoforms T4 (383 amino acids) and T4L (441 amino acids). To determine which segments of the tau protein are susceptible to modification by transglutaminase, tau was labeled with [3H]putrescine by transglutaminase and proteolyzed with alpha-chymotrypsin, and the breakdown products were analyzed. These experiments demonstrate that the enzyme modifies tau at only one or a few discrete sites, primarily in the carboxyl half of the molecule. Thus, the reaction is specific for only a small number of the many glutamine residues in tau. Furthermore, a tau deletion construct (T264) containing a portion of the microtubule-binding domains, which is a substrate of transglutaminase, cannot be cross-linked by the enzyme. This provides evidence that the cross-linking reaction is specific, and requires that the substrates be appropriately associated for cross-linking to occur.
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PMID:Transglutaminase cross-linking of the tau protein. 756 74

The brain of Alzheimer disease patients contains plaques that are diagnostic for the disease. The plaques also contain beta-amyloid peptide, alpha 1-antichymotrypsin, and the element aluminum. We present indirect evidence that can relate all three components of plaques to each other in such a way as to suggest their involvement in the etiology of the disease. The beta-amyloid peptide is derived by proteolytic processing from beta-amyloid precursor proteins and some of these proteins contain a domain that is highly homologous to bovine pancreatic trypsin inhibitor. Bovine pancreatic trypsin inhibitor also inhibits alpha-chymotrypsin and we show that aluminum affects both the activity and the inhibition of this enzyme. At pH 6.5, in the presence of aluminum, the enzyme activity is doubled, and the inhibitor is only 1% as effective as in the absence of the metal ion. The inhibition by BX-9, a protease inhibitor prepared from protein components of amyloid plaques, is also reduced by aluminum; so too is that by alpha 1-antichymotrypsin but to a lesser degree. In the Alzheimer brain, we propose that aluminum may accelerate proteolytic processing of the beta-amyloid precursor protein by suppression of the inhibitor domain. Thus, the beta-amyloid peptide may accumulate and initiate plaque formation.
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PMID:Regulation of serine protease activity by aluminum: implications for Alzheimer disease. 767 14

In this report we describe the use of the methylotrophic industrial yeast Pichia pastoris as a host system for the large scale production of the Kunitz-type proteinase inhibitor (KPI) domain of the amyloid beta-protein precursor-like protein-2 (APLP-2). The expression plasmid for the KPI domain of APLP-2 encoded amino acids 305-364 of the APLP-2 cDNA (Slunt et al. (1994) J. Biol. Chem. 269, 2637-2644). The secreted 60 amino-acid product was purified to homogeneity and biochemically characterized. Amino-acid sequencing of the expressed KPI domain of APLP-2 verified its integrity. The proteinase inhibitory properties of the KPI domain of APLP-2 were compared to those of the KPI domain of proteinase nexin-2/amyloid beta-protein precursor (PN-2/A beta PP). Both KPI domains potently inhibited trypsin and, to a lesser extent, chymotrypsin, plasmin, and coagulation factors XIa and IXa. However, the KPI domain of APLP-2 was a approximately 20-fold less effective inhibitor of coagulation factor XIa compared to the KPI domain of PN-2/A beta PP. Similarly, the KPI domain of APLP-2 was a less effective anticoagulant in coagulation based assays than the KPI domain of PN-2/A beta PP. These studies indicate that the KPI domains of PN-2/A beta PP and APLP-2 form a family of proteinase inhibitors although the former is a better inhibitor of factor XIa and a more potent anticoagulant than the latter.
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PMID:Expression, purification, and characterization of the Kunitz-type proteinase inhibitor domain of the amyloid beta-protein precursor-like protein-2. 781 86

Amyloid beta protein (beta/A4) is deposited in senile plaques of patients with Alzheimer's disease. This protein is derived from a larger membrane-associated protein, termed amyloid precursor protein (APP). The constitutive processing of APP occurs at the central portion of beta/A4, resulting in the release of large N-terminal peptides. We have purified these peptides from the culture medium of cDNA-transfected COS-1 cells. Some of the isoforms contain the Kunitz-type protease inhibitor (KPI) domain and strongly inhibit trypsin, chymotrypsin and plasmin, but do not inhibit kallikrein, prolyl endopeptidase or granzyme A. The peptides also do not inhibit cysteine proteases such as cathepsin B or calpain. Soluble APPs lacking the KPI domain fail to inhibit any of these proteases. The results indicate that the KPI domain in soluble APPs has protease inhibitory activity against certain serine proteases.
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PMID:Inhibitory spectra of purified protease nexin-II and related proteins towards cellular proteinases. 790 50

Amyloid deposits in Alzheimer's disease, Down's syndrome and aged brain are composed largely of A beta protein, which is generated by proteolytic processing of beta-amyloid precursor protein. Proteases responsible for liberating the A beta protein from the precursor have not yet been identified. Here, we examined the ability of cathepsin G, a chymotrypsin-like protease, to cleave two protease substrates: (i) a fluorogenic hexapeptide, whose sequence spans the cleavage site in the precursor for generating the A beta NH2-terminus, and (ii) recombinant human beta-amyloid precursor protein purified from a baculovirus expression system. Unlike two other members of the chymotrypsin family, cathepsin G readily degraded the hexapeptide. Furthermore, cathepsin G cleaved the beta-amyloid precursor protein to generate several breakdown products, including a prominent 11,500 mol. wt fragment immunoreactive with antibodies directed against the COOH-terminus of the protein. This COOH-terminal fragment co-migrated using two-dimensional isoelectric focusing/sodium dodecyl sulfate-polyacrylamide gel electrophoresis with C-100, a recombinant COOH-terminal segment of the beta-amyloid precursor, whose NH2-terminus is one residue upstream of the NH2-terminus of the A beta domain. We also examined the localization of cathepsin G in human brain. The distribution of cathepsin G-containing cells was examined by immunohistochemistry in the temporal cortex of both Alzheimer's and aged control samples. Cathepsin G-like immunoreactivity was contained specifically within neutrophils. As visualized by double-labeling with antibodies to cathepsin G and Factor VIII, neutrophils were most frequently found within meningeal or cortical blood vessels. In addition, occasional neutrophils could be identified without an apparent vascular surround, in the brain parenchyma. By simultaneous labeling with antibodies to cathepsin G and A beta protein, neutrophils were also sometimes found associated with both parenchymal and vessel amyloid deposits; however, these associations were rare. These findings indicate that cathepsin G is capable of cleaving the beta-amyloid precursor protein to liberate the free NH2-terminus of the A beta protein and may have access to areas where this material is deposited in Alzheimer's disease. However, since there is no physical association between neutrophils and deposited amyloid and no increase in the number of neutrophils in an Alzheimer's brain, cathepsin G seems to be an unlikely mediator of amyloid deposition in this disease.
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PMID:Cathepsin G: localization in human cerebral cortex and generation of amyloidogenic fragments from the beta-amyloid precursor protein. 793 90

alpha 1-Antichymotrypsin (alpha 1-ACT) is an early-stage acute-phase plasma protein and a serpin that preferentially inactivates chymotrypsin, cathepsin G, and chymase. Using immunofluorescence with four rabbit polyclonal and two monoclonal specific antibodies against human alpha 1-ACT, we have localized alpha 1-ACT at human and rat neuromuscular junctions (NMJs). Strong alpha 1-ACT immunoreactivity (IR) was present at all NMJs identified by bound alpha-bungarotoxin (alpha-BT). alpha 1-ACT immunoreactivity typically extended slightly deeper into the muscle fiber than alpha-BT, and it closely co-localized with immunoreactivities of post-synaptic desmin, beta-amyloid precursor protein, and dystrophin at the same double- or triple-labeled NMJs. Topography of alpha 1-ACT-IR was the same at human and rat NMJs. The muscle non-junctional sarcolemma was either not immunoreactive or was only very slightly so. When the primary antibody was omitted, absorbed, or replaced by a non-immune serum, there was no immunostaining. Thus, alpha 1-ACT is a novel component of the NMJ. Although its role in the postsynaptic domain of the NMJ is unknown, it might be involved in the interaction between the presynaptic and postsynaptic components and/or inhibit excessive or unwanted serine proteases that may exist in the region of the NMJ.
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PMID:Alpha 1-antichymotrypsin is strongly immunolocalized at normal human and rat neuromuscular junctions. 805 38

The Kunitz-type protease inhibitor domain from a recently identified homolog of the Alzheimer amyloid precursor protein (APPH KPI) was expressed in yeast, purified and characterized. Its inhibition profile towards several serine proteases was studied and compared to that of APP KPI, the Kunitz domain from the Alzheimer amyloid precursor protein. APPH KPI was shown to inhibit proteases with trypsin-like specificity with an inhibitor profile resembling that of the APP KPI domain. The KPI domains from APP and APPH inhibited trypsin (Ki = 0.02 nM), and plasma kallikrein (Ki = 86 nM) with approximal equal affinity. In comparison to APP KPI (Ki = 82 nM) the KPI domain of the homolog, APPH KPI, (Ki = 8.8 nM) was a more potent inhibitor of glandular kallikrein. APPH KPI was a less potent inhibitor of chymotrypsin than APP KPI (Ki = 78 nM as compared to Ki = 6 nM), plasmin (Ki = 81 nM as compared to 42 nM), and factor XIa (Ki = 14 nM as compared to Ki = 0.7 nM). The affinity of factor XIa for APPH KPI is sufficiently high to allow for an interaction in the blood. It is, however, well possible that the physiological protease ligand for the receptor-like APPH protein has yet to be identified.
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PMID:Expression, purification and characterization of a Kunitz-type protease inhibitor domain from human amyloid precursor protein homolog. 830 56

The major pathological change in Alzheimer's disease is the deposition of 39-42-amino acid beta-amyloid peptide (BAP) in the brain. Since BAP begins at the aspartate residue (Asp1, or codon 672 of the amyloid precursor protein (APP)770 transcript), the ability of several proteases to cleave the peptide bond methionine-Asp1 (M/D) was evaluated by using peptides and recombinant APP molecules as substrates. Cathepsin G and chymotrypsin cleave the synthetic peptide HSEVKMDAEF at M/D under acidic conditions, whereas cleavage at lysine-methionine (K/M) predominates when the pH is alkaline. Trypsin and cathepsins B, D, and L are unable to cleave the synthetic peptide at M/D. Peptide SEVNLDAEF, representing the mutation found in early onset Alzheimer's disease families from Sweden, is cleaved by cathepsin G and chymotrypsin at leucine-aspartate (L/D). Incubation of cathepsin G with soluble protease nexin-2 obtained from recombinant APP (APP-REP) derivatives resulted in proteolytic cleavage at or near the amino terminus of BAP. Cathepsin G-mediated cleavage was also observed in the domain representing the amino terminus of BAP when mature plasma membrane-associated APP-REP molecules were used as substrates. Our results strongly suggest the involvement of a chymotrypsin-like serine protease in the generation of the amino terminus of BAP beginning at Asp1.
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PMID:Enzymatic generation of the amino terminus of the beta-amyloid peptide. 834 49

Progressive cerebral deposition of the amyloid beta-peptide (Abeta) is an early and constant feature of Alzheimer's disease. Abeta is derived by proteolysis from the beta-amyloid precursor protein. beta-Amyloid precursor protein processing and the generation of Abeta have been extensively characterized, but little is known about the mechanisms of degradation of this potentially neurotoxic peptide. We identified and purified a proteolytic activity in culture medium that can degrade secreted Abeta but not larger proteins in the medium. Detection of the activity in conditioned medium required the presence of fetal bovine serum and the passage of the cells with a pancreatic trypsin preparation. Its inhibitor profile showed that the activity was a serine protease other than trypsin or chymotrypsin. The protease occurs as a stable approximately 700-kDa complex with the inhibitor, alpha2-macroglobulin (alpha2M), that retains activity against small substrates such as Abeta. Its NH2-terminal sequence suggests that the protease is previously unidentified. Our results indicate that the Abeta-degrading protease we have detected is a non-trypsin component of a pancreatic trypsin preparation or else derives from a zymogen in serum that is activated by a protease in the latter preparation. Because Abeta-bearing plaques in Alzheimer's disease brain contain both alpha2M and receptors of alpha2M-protease complexes, the same or a similar alpha2M-protease complex could arise in vivo and play a role in Abeta clearance.
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PMID:Degradation of amyloid beta-protein by a serine protease-alpha2-macroglobulin complex. 862 44

The insoluble amyloid deposited extracellularly in the brains of patients with Alzheimer's disease (AD) is composed of amyloid beta protein, a approximately 4-kDa secreted protein that is derived from a set of large proteins collectively referred to as the amyloid beta protein precursor (betaAPP). During normal processing the betaAPP is cleaved by beta secretase, producing a large NH2-terminal secreted derivative (sAPPbeta) and a COOH-terminal fragment beginning at Abeta1, which is subsequently cleaved by gamma secretase releasing secreted Abeta. Most secreted Abeta is Abeta1-40, but approximately 10% of secreted Abeta is Abeta1-42. Alternative betaAPP cleavage by alpha secretase produces a slightly longer NH2-terminal secreted derivative (sAPPalpha) and a COOH-terminal fragment beginning at Abeta17, which is subsequently cleaved by gamma secretase releasing a approximately 3-kDa secreted form of Abeta (P3). Several of the betaAPP isoforms that are produced by alternative splicing contain a 56-amino acid Kunitz protease inhibitor (KPI) domain known to inhibit proteases such as trypsin and chymotrypsin. To determine whether the KPI domain influences the proteolytic cleavages that generate Abeta, we compared Abeta production in transfected cells expressing human KPI-containing betaAPP751 or KPI-free betaAPP695. We focused on Abetas ending at Abeta42 because these forms appear to be most relevant to AD. Using specific sandwich enzyme-linked immunosorbent assays, we analyzed full-length Abeta1-42 and total Abeta ending at Abeta42 (Abeta1-42 + P3(42)). In addition, we analyzed the large secreted derivatives produced by alpha secretase (sAPPalpha) and beta secretase (sAPPbeta). In mouse teratocarcinoma (P19) cells expressing betaAPP695 or betaAPP751, expression of the KPI-containing betaAPP751 resulted in the secretion of a lower percentage of P3(42) and sAPPalpha and a correspondingly higher percentage of Abeta1-42 and sAPPbeta. Similar results were obtained in human embryonic kidney (293) cells. These results indicate that expression of the KPI domain reduces alpha secretase cleavage so that less P3 and relatively more full-length Abeta are produced. Thus, in human brain and in animal models of AD, the amount of KPI-containing betaAPP produced may be an important factor influencing Abeta deposition.
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PMID:The alternatively spliced Kunitz protease inhibitor domain alters amyloid beta protein precursor processing and amyloid beta protein production in cultured cells. 894 79

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