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)

Soluble beta-amyloid protein precursors (beta-APPs) were studied in human brain and cerebrospinal fluid (CSF) after partial purification by ion exchange chromatography. Proteins were analysed in immunoblotting experiments using a monoclonal antibody directed against the N-terminal segment of the beta-APP 770, and by reverse enzymography. In the human brain and CSF, a protein which comigrates with the beta-APP 770 expressed by transfected CHO cells was able to inhibit trypsin.
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PMID:Inhibition of trypsin by the beta-amyloid protein precursor. A comparative study between transfected cells, human brain and cerebrospinal fluid. 155 18

To understand the pathological process by which amyloid is deposited in Alzheimer's disease, it is important to characterize the proteolytic processing events of the beta-amyloid precursor protein (beta-APP) from which the amyloid-forming fragment is excised. A potentially important component in beta-APP processing is the 57-amino acid (aa) Kunitz serine protease inhibitor (KPI) located within the extracellular domain of both the 751- and 770-aa isoforms of beta-APP. We have synthesized DNA encoding the 57-aa KPI domain as a necessary step in identifying the role of the protease inhibitor in beta-APP processing and amyloid formation. A bacterial secretion system directed by the alkaline phosphatase signal peptide of Escherichia coli linked to a synthetic gene encoding KPI was used to produce soluble, extracellular recombinant KPI (reKPI) protein. The reKPI protein was purified to homogeneity from bacterial supernatants and was biochemically and biologically characterized. Complete aa sequence analysis confirmed the fidelity of the reKPI, and fast-atom bombardment mass-spectral analysis was used to document that reKPI was of the predicted Mr. The reKPI is as active on a molar basis as the inhibitor-containing beta-APP when assayed for inhibition of trypsin activity. Together these data suggest that reKPI protein is properly folded and lacking in modified aa. Hence, this reKPI will be an important reagent in gaining a better understanding of the role of the KPI domain in beta-APP function and metabolism, as well as in the proteolytic events involved in beta-amyloid formation.
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PMID:Synthesis and characterization of the Kunitz protease-inhibitor domain of the beta-amyloid precursor protein. 170 46

Site-specific mutagenesis techniques have been used to construct active site variants of the Kunitz-type protease inhibitor domain present in the Alzheimer's beta-amyloid precursor protein (APP-KD). Striking alteration of its protease inhibitory properties were obtained when the putative P1 residue, arginine, was replaced with the small hydrophobic residue valine. The altered protein was no longer inhibitory toward bovine pancreatic trypsin, human Factor XIa, mouse epidermal growth factor-binding protein, or bovine chymotrypsin, all of which are strongly inhibited by the unaltered APP-KD (Sinha, S., Dovey, H. F., Seubert, P., Ward, P. J., Blacher, R. W., Blaber, M., Bradshaw, R. A., Arici, M., Mobley, W. C., and Lieberburg, I. (1990) J. Biol. Chem. 265, 8983-8985). Instead, the P1-Val-APP-KD was a potent inhibitor of human neutrophil elastase, with a Ki = 0.8 nM, as estimated by the inhibition of the activity of human neutrophil elastase measured using a chromogenic substrate. It also inhibited the degradation of insoluble elastin by the enzyme virtually stoichiometrically. Replacement of the P1' (Ala) and P2' (Met) residues of P1-Val-MKD with the corresponding residues (Ser, Ile) from alpha 1-proteinase inhibitor resulted in an inactive protein, underscoring the mechanistic differences between the serpins from the Kunitz-type protease inhibitor family. These results confirm the importance of the P1 arginine residue of APP-KD in determining inhibitory specificity, and are also the first time that a single amino acid replacement has been shown to generate a specific potent human neutrophil elastase inhibitor from a human KD sequence.
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PMID:Conversion of the Alzheimer's beta-amyloid precursor protein (APP) Kunitz domain into a potent human neutrophil elastase inhibitor. 193 50

Senile plaques, often surrounded by abnormally grown neurites, are characteristic of Alzheimer's diseased brain. The core of the plaque is mainly composed of amyloid beta protein (beta-AP), two of whose three precursors (APP) have serine proteinase inhibitor regions (APPI). APPI derivatives containing 60, 72 or 88 amino-acid fragments (APPI-60, APPI-72 and APPI-88, respectively) of the longest APP were produced in COS-1 cell culture medium, with the APPI cDNA ligated to the signal sequence of tissue plasminogen activator. The secreted APPIs were purified by sequential acetone precipitation followed by affinity chromatography using immobilized trypsin. These three APPIs and O-glycosylation-site-mutated APPI showed similar inhibitory activity against trypsin, chymotrypsin and plasmin. The purified APPI-72 was found to inhibit trypsin (Ki = 1.1 x 10(-10) M) and chymotrypsin (Ki = 5.8 x 10(-9) M) most strongly, and to inhibit leukocyte elastase (Ki = 7.9 x 10(-7) M) and several blood coagulation proteinases (Ki = 0.46-12 x 10(-7) M), but not urokinase or thrombin. The observed inhibition pattern was quite different from that of protease nexin I, one of serine proteinase inhibitors possessing neurite outgrowth activity. This suggests that the physiological roles of APPI are different from those of protease nexin I, and that APPI could not cause aberrant growth of neurite into the plaque. The presence of APPI having strong inhibitory activity in the brain might lead to the formation of amyloid deposits by preventing complete degradation of APPs.
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PMID:Enzyme specificity of proteinase inhibitor region in amyloid precursor protein of Alzheimer's disease: different properties compared with protease nexin I. 218 Apr 85

Trypsin inhibitors in serum-free conditioned media (SFCM) of various human carcinoma cell lines were analyzed by reverse zymography. Most of the cells secreted high-molecular-weight trypsin inhibitors (HMTI) larger than 100 kDa. The cell lines of colorectal carcinoma origin had a tendency to secrete HMTI whose molecular weight was a little higher than that of the other cell lines. Analysis of SFCM of subclones with different histological differentiation and metastatic/invasive potentials derived from a single pancreatic carcinoma cell line SUIT-2 showed that the HMTI activity in SFCM was correlated to the degree of histological differentiation in vivo and tended to be inversely correlated to their metastatic/invasive capabilities. Immunoblotting analysis revealed that these HMTI were protease nexin-II/amyloid beta protein precursors (PN-II/APP). Semi-quantificative reverse-transcriptase/polymerase-chain reaction study for PN-II/APP mRNAs suggested that the differences in PN-II/APP activities in SFCM between the subclones might be post-transcriptional or post-secretional events. In addition, SFCM of a highly metastatic subclone contained 43-kDa protein which reacted to anti-APP monoclonal antibody (MAb) suggesting that the subclone may have APP-degrading activity.
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PMID:Reverse-zymographic analysis of protease nexin-II/amyloid beta protein precursor of human carcinoma cell lines, with special reference to the grade of differentiation and metastatic phenotype. 781 44

Based upon recent evidence that the secreted form of APP can cause the release of cytokines and elicit other biological activities, we sought to identify whether a receptor could be identified on the surface of cells. The secreted amyloid precursor protein containing the Kunitz domain (scAPP751) is identical to protease nexin II, a protease inhibitor which has been shown to form complexes with labeled EGF binding protein that subsequently binds to cells. Results of [125I]scAPP751-trypsin complex incubated with intact fibroblast cells show that the complex appears to bind in a saturable time-dependent and reversible manner. The kinetic constants from the binding studies demonstrate a k1 = 2.5 x 10(7) M-1 s-1 and k2 = 4.7 x 10(-4) s-1 and thus a KD (= k2/k1) = 20 pM. Furthermore, the complex formation of [125I]scAPP751 with a protease appears to be a requirement for optimal binding. The binding affinity of secreted APP demonstrated in this study is consistent with its potency in eliminating a range of biological efforts that have been documented.
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PMID:Identification of secreted beta-amyloid precursor protein binding sites on intact human fibroblasts. 818 26

1. It was recently proposed that acetylcholinesterase (AChE), in addition to its esteratic activity, has proteolytic activity such that it may cleave the beta-amyloid precursor (beta-APP) within the beta-amyloid sequence. The purpose of this paper was to examine further whether AChE or butyrylcholinesterase (BuChE) had associated proteinase activity that was involved in the metabolism of beta-APP. 2. The ability of various preparations of AChE and BuChE to hydrolyze two synthetic fragments of beta-APP695 as model substrates containing the normal and aberrant cleavage sites was studied. 3. Digestion of these synthetic substrates with commercial preparations of Electrophorus electricus AChE indicated the presence of a trypsin-like proteolytic activity cleaving each peptide at the carboxy-terminal side of an internal lysine residue. 4. Purification of the trypsin-like proteinase activity by aminobenzamidine affinity chromatography yielded a preparation that was devoid of AChE activity but retained all of the proteinase activity. 5. Amino-terminal sequence analysis of this preparation showed that the first 13 amino acid residues were identical to beta-pancreatic trypsin. 6. These data indicate that the proteinase activity found in these commercial preparations of AChE is due to contamination with trypsin.
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PMID:Proteolysis at the secretase and amyloidogenic cleavage sites of the beta-amyloid precursor protein by acetylcholinesterase and butyrylcholinesterase using model peptide substrates. 824 91

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

Immunofluorescence on primary dissociated rat neuronal cultures (cortical, hippocampal, and cerebellar) and organotypic hippocampal cultures was used to investigate the pattern of distribution of cell-surface amyloid protein (APP). Antibodies directed against the extracellular (N-terminal) portion of APP or against the entire molecule, but not against the C-terminal portion, revealed a striking segmental pattern of immunoreactivity along both axons and dendrites of all neuronal types tested. The pattern first developed between 24 and 48 h in culture. The segments showed co-localization with beta 1-integrin and talin immunoreactivities, but not with GAP-43 or clathrin, indicating that they may mark adhesion patches. Confocal laser microscopy supported a surface location for the APP responsible for the segmented pattern on neurites, as did the reduction of segmental immunoreactivity after exposure to mu-calpain or trypsin. It is conjectured that APP may have a role in cell-substratum interactions in the medium term, during such events as synaptic plasticity and neurite stability during extension.
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PMID:Alzheimer's disease amyloid precursor protein on the surface of cortical neurons in primary culture co-localizes with adhesion patch components. 891 60

Cell-surface carbohydrates of Entamoeba invadens trophozoites were analyzed using (a) a panel of highly purified lectins specific for molecules containing N-acetylglucosamine or sialic acid, N-acetylgalactosamine, galactose, mannose-like residues, and fucose; (b) Escherichia coli K-12 with mannose-sensitive fimbria; (c) enzymatic digestion; and (d) scanning electron microscopy. The presence of galactose (D-Gal) and N-acetylgalactosamine (D-GalNAc) was detected in the amoeba. Previous trypsinization induced the appearance of Glycine max (SBA, specific for D-GalNAc residues)-binding sites, whereas such treatment completely abolished the ability of Ricinus communis (RCAI) and Axinalla polypoides (APP, specific for D-Gal) lectins and partially abolished that of Euonymus europaeus (EEL, specific for D-Gal) lectins to agglutinate the trophozoites. The agglutinating activity of E. coli K-12 adheans with the amoeba was markedly increased after trypsin digestion, indicating that mannose units become exposed after enzyme treatment. These findings were essentially confirmed by scanning electron microscopy. After neuraminidase treatment the parasites became strongly agglutinated with SBA and Arachis hypogaea (PNA, specific for D-Gal) and the cell interaction with Wisteria floribunda (WFH, specific for D-GalNAc) was markedly increased. These results suggest that in E. invadens trophozoites, sialic acid residues are linked to D-Gal and D-GalNAc.
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PMID:Cell-surface carbohydrates of Entamoeba invadens. 934 47

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