Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Asymmetric forms of Torpedo acetylcholinesterase (AChE) are produced in COS cells by the simultaneous expression of collagenic subunits (Q) and catalytic T subunits (AChET). Truncated AChET delta subunits, from which most of the C-terminal peptide (TC) had been deleted by mutagenesis, did not associate with Q subunits. The TC peptide is therefore necessary for the association of the AChET and Q subunits. In order to determine the orientation of the Q subunit in the collagen-tailed forms, we have developed an antiserum against its non-collagenic C-terminal domain, expressed as a fusion protein in Escherichia coli. This antiserum, which recognized the Q subunit in Western blots, was found to react with intact asymmetric forms, but not with collagenase-treated forms, from which the distal part of the tail had been cleaved, suggesting that the N-terminal non-collogenic domain (QN) is responsible for the interaction with the AChET subunits. This was confirmed by creating a chimeric subunit (QN/HC), in which QN was linked to the C-terminal peptide of the H subunit of Torpedo AChE, which contains the glycophosphatidylinositol (GPI) cleavage/attachment signal: co-expression of AChET and QN/NC produced GPI-anchored tetramers, which were sensitive to PI-PLC and largely exposed to the external surface of the cells. We thus demonstrate that: (i) the HC peptide is sufficient to determine the addition of a glycolipid anchor and (ii) the QN domain is sufficient to bind a catalytic AChET tetramer by interacting with the TC peptide.
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PMID:Molecular architecture of acetylcholinesterase collagen-tailed forms; construction of a glycolipid-tailed tetramer. 138 Apr 51

The protein encoded by herpesvirus saimiri transforming gene STP-C488 was identified and characterized. Antibodies were produced in rabbits by immunization with keyhole limpet hemocyanin-conjugated synthetic peptides specific for the predicted sequence of STP-C488. STP-C488-encoded protein was detected in recombinant Escherichia coli, transformed Rat-1 cells, transfected COS-1 cells, and in common marmoset T lymphocytes immortalized by herpesvirus saimiri strain 488. STP-C488 protein was sensitive to treatment by bacterial collagenase, consistent with the 18 uninterrupted collagenlike repeats predicted by the DNA sequence. The apparent molecular size of STP-C488 in sodium dodecyl sulfate (SDS)-polyacrylamide gels (20 to 22 kDa) was considerably larger than that predicted from the DNA sequence (9.9 kDa). Using indirect immunofluorescence tests and subcellular fractionation, STP-C488 was found to be membrane bound, primarily in perinuclear compartments. The 18 uninterrupted collagenlike repeats, sensitivity to collagenase, location in the cell, and anomalous migration through SDS-polyacrylamide gels suggest an unusual, membrane-associated, fibrous structure for this transforming herpesvirus oncoprotein.
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PMID:Identification and characterization of the herpesvirus saimiri oncoprotein STP-C488. 165 84

We have identified and sequenced a cDNA encoding human neutrophil collagenase from a lambda gt11 cDNA library constructed from mRNA extracted from the peripheral leukocytes of a patient with chronic granulocytic leukemia. The library was screened with an oligonucleotide probe constructed from the putative zinc-binding region of fibroblast collagenase. Eleven positive clones were identified, of which the one bearing the largest insert (2.2 kilobases (kb)) was sequenced. From the nucleotide sequence of the 2.2-kb cDNA clone we have deduced a 467-amino acid sequence representing the entire coding sequence of the enzyme. The deduced protein was confirmed as neutrophil collagenase by conformity with the amino-terminal sequence analyses of three tryptic peptides of purified neutrophil collagenase. The cDNA clone hybridizes to a 3.3-kb mRNA present in RNA extracted from human bone marrow but did not hybridize with RNA isolated from U937 cells induced to differentiate with phorbol myristate acetate. Neutrophil collagenase was found to possess 57% identity with the deduced protein sequence for fibroblast collagenase with 72% chemical similarity. Certain regions of the molecule, including the putative zinc-binding region, are highly conserved. When compared with the published sequence for fibroblast collagenase, neutrophil collagenase contains four additional sites for glycosylation. Medium from COS-7 cells transfected with a pcDNA1 eucaryotic expression vector containing cDNA for neutrophil collagenase degraded type I collagen into the three-quarter, one-quarter fragments characteristic of mammalian interstitial collagenase activity. Thus, definitive evidence based on the cDNA sequence confirms the neutrophil collagenase is a distinct gene product and a member of the family of matrix metalloproteinases.
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PMID:Human neutrophil collagenase. A distinct gene product with homology to other matrix metalloproteinases. 216 2

Rat transin and human stromelysin 2 mRNAs, which have been associated with malignant tumors, code for potential proteins with significant sequence homology to the metalloproteinases collagenase and stromelysin. We have used an expression system that allows easy purification of these proteins after transfection of COS cells with a vector containing the corresponding cDNA. This system has allowed us to prepare transin and stromelysin 2 as active proteinases that are inhibited by inhibitors of metalloproteinases. Further analysis of these enzymes indicates that they degrade several components of the extracellular matrix including collagen types III, IV, and V and fibronectin, as well as gelatins formed from several denatured collagen types. In addition, both transin and stromelysin 2 are capable of activating procollagenase in vitro. Thus, in malignant tumors these proteinases may act, both directly and indirectly, to degrade the extracellular matrix and permit tumor invasion of neighboring tissues.
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PMID:Human and rat malignant-tumor-associated mRNAs encode stromelysin-like metalloproteinases. 254 3

The cell and ligand specificity of the putative surfactant protein A (SP-A) receptor was investigated using a cell receptor assay in which SP-A-coated magnetic beads were incubated with 51Cr-labeled cells at 4 degrees C. Cells that bound to the SP-A-coated beads were isolated by magnetic separation. The recovery of alveolar macrophages was significantly higher than the recovery of peritoneal macrophages, alveolar type II cells, polymorphonuclear leukocytes, COS cells, and U937 cells. In "coincubation" experiments, in which the potential inhibitors were present during the cell recovery assay, SP-A, SP-D, and complement factor 1q (C1q) all inhibited recovery. In contrast, in "preincubation" experiments, in which cells were incubated with potential inhibitors and then washed before the cell recovery assay, only SP-A inhibited cell recovery. Because SP-A binds to SP-D and C1q, we speculate that inhibition of SP-A binding to macrophages by SP-D and C1q in coincubation assays is due to interaction of SP-A with SP-D or C1q, rather than competition for receptor binding. The recovery of alveolar macrophages was also inhibited by preincubation with heat-denatured SP-A, deglycosylated SP-A, and with the collagenase-resistant fragment of SP-A, but not by coincubation with mannan. These results suggest the presence of a receptor on alveolar macrophages with a high degree of specificity for SP-A.
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PMID:Characterization of the surfactant protein A receptor: cell and ligand specificity. 807 39

The involvement of protein kinase C (PKC), a 12-O-tetradecanoylphorbol-13-acetate (TPA) receptor, in the transcriptional regulation of TPA-inducible genes was determined. Expression plasmids harboring full-length or kinase domain of PKC alpha and PKC delta (PKC alpha K and PKC delta K) were constructed. Transient transfection of PKC alpha K and PKC delta K into COS cells resulted in approximately 20- and 16-fold increase in phospholipid-, calcium-independent protein kinase activity. To determine the effects of overexpression of PKC alpha K and PKC delta K on the AP-1-mediated TPA-inducible genes, we transfected into COS cells the PKC alpha K or PKC delta K expression plasmids with collagenase chloramphenicol acetyltransferase (CAT) reporter construct containing one TPA responsive element (TRE), or a construct containing five synthetic TRE linked to a thymidine kinase promoter. PKC alpha K or PKC delta K overexpression resulted in a comparable increase (approximately 4-fold) in CAT activity. However, CAT activity was not increased after transfection of PKC constructs with non-TPA responsive thyroid hormone responsive elements CAT construct (delta MTV-TyRE-pCAT). We also found that deletion of the AP-1-like motif in the SV40 promoter abolished the PKC alpha K or PKC delta K-induced activity of luciferase (luc) reporter constructs. Overexpression of full-length PKC delta in COS cells also increased the activity of the CAT construct with TRE after TPA treatment. We determined the effects of overexpression of PKC alpha K and PKC delta K on transcription of the ornithine decarboxylase (ODC) gene, which has a non-AP-1 TRE. Cotransfection of PKC alpha K or PKC delta K expression plasmids with a TPA-inducible ODC luc construct (-72/+130-ODC-luc) into HeLa cells resulted in an increased luc activity. These results indicate that both PKC alpha (calcium dependent) and PKC delta (calcium independent) may mediate the transcription of TPA-inducible genes through both AP-1 and non-AP-1 sequences.
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PMID:Involvement of protein kinase C in the transcriptional regulation of 12-O-tetradecanoylphorbol-13-acetate-inducible genes modulated by AP-1 or non-AP-1 transacting factors. 814 84

C-erbA receptors and v-erbA have been shown to functionally interact with 12-O-tetradecanoyl-phorbol-13-acetate (TPA)-inducible gene expression. These proteins enhance trans-activation by c-jun, and the c-erbA receptors in the presence of thyroid hormone repress TPA and c-jun induction of transcription. Also, v-erbA can abrogate T3-mediated repression. We have examined how dominant negative (S and CL) and nondominant negative (G-H) receptors cloned from various patients with thyroid hormone resistance syndromes affect expression of the collagenase promoter induced with TPA. The CL receptor (ARG315HIS mutation) has a 2-fold reduction in T3-binding affinity compared with human c-erbA beta 1 wild-type (WT) receptor, whereas the G-H receptor (ARG311HIS) and S receptor (deletion, THR codon 332) have T3-binding affinities reduced by 100-fold and greater than 100-fold, respectively. These mutant receptors were cotransfected with a collagenase promoter (-1200 to +63 base pairs) chloramphenicol acetyltransferase reporter gene (Col-CAT) into COS-7 cells. Levels of CAT reporter gene expression after transient transfection were determined in the presence or absence of 3-10 nM T3 and the presence or absence of 100 nM TPA. Unoccupied CL receptor and G-H and S receptors stimulated TPA-induced Col-CAT expression 1.5- to 9-fold. The CL receptor with thyroid hormone totally repressed TPA induction of the collagenase receptor. In the presence of thyroid hormone, the enhancing effects by S and G-H receptors on TPA-induced Col-CAT expression were unaffected and minimally diminished, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dominant and nondominant negative C-erbA beta 1 receptors associated with thyroid hormone resistance syndromes augment 12-O-tetradecanoyl-phorbol-13-acetate induction of the collagenase promoter and exhibit defective 3,5,3'-triiodothyronine-mediated repression. 824 13

The relationship of enzyme structure to substrate specificity for the matrix metalloproteinases interstitial collagenase and stromelysin-2 has been investigated by analysis of the cleavage specificity of recombinant human collagenase-stromelysin-2 hybrid proteins and C terminally truncated collagenase and stromelysin-2. Two series of chimeric proteins were devised by progressive substitution of exon-encoded domains. The recombinant proteins were expressed in COS-7 cells as protein A-fusion proteins and purified on an IgG affinity matrix. Treatment with 4-amino-phenylmercuric acetate released active metalloproteinase of the sizes predicted for the chimeric proteins. Active forms of both the chimeric protein series and the short form enzymes expressed both casein- and gelatin-degrading activities. Like stromelysin, the catalytic activity of stromelysin-2 was contained in the N-terminal domain (encoded by exons 1-5) and was apparently independent of the C-terminal domain (encoded by exons 6-10). Only full-length collagenase displayed a triple helicase (collagenolytic) activity; no combination of N- or C-terminal collagenase domains fused with stromelysin-2 domains had such activity. This suggests that the triple helicase activity is a composite of elements derived from both halves of the collagenase molecule. C terminally truncated collagenase (exons 1-5) and a hybrid of collagenase exons 1-5 and stromelysin-2 exons 6-10 cleaved denatured type I collagen (gelatin) to generate diagnostic peptides in gelatin fingerprint assays. When exon 5 (the exon encoding the zinc-binding domain) was derived from stromelysin-2, the enzyme specificity in the fingerprint assay changed to that of native stromelysin-2. In contrast, when exon 5 was derived from collagenase, the specificity reflected that of the parent enzyme. Our data also suggest that mismatching of exons 2 and 5 destabilizes the enzyme, presumably by altering the geometry of the propeptide-zinc-binding site interaction. We conclude that the loss of triple helicase collagenolytic activity is not accompanied by a shift to the broad specificity characteristic of stromelysin. Rather, the zinc-binding domain confers a distinct cleavage specificity on each metalloproteinase.
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PMID:Role of zinc-binding- and hemopexin domain-encoded sequences in the substrate specificity of collagenase and stromelysin-2 as revealed by chimeric proteins. 846 59

PDGF is a powerful mitogen initially identified within platelets, but also shown to be produced by a wide variety of cell types. PDGF is encoded on two separate genes. These give rise to three polypeptides, PDGF B and two forms of PDGF A (SA and LA), resulting from alternative splicing of the PDGF A gene primary transcript. We report that in CHO cells transfected with PDGF gene constructs and producing moderate levels of PDGF homodimers, much of the PDGF LA and B produced, but little if any SA, is found in the matrix laid down beneath the cells. Immunoreactive PDGF in cells, and in matrix below expressing cells, was visualized by laser confocal microscopy. Western blotting of protein in matrix extracts, cell extracts, and secreted into the growth medium was used to demonstrate that the range of PDGF A polypeptides seen in the matrix was overlapping with those reported previously to be cell associated in cell types such as NIH3T3 and COS 7. This suggests that attachment to matrix or cell surface may be alternative fates for these polypeptides, with fate dependent on the characteristics of the producing cells. Immunoreactive PDGF A and B could be partially released by incubation of matrix material with heparin but not with other glycosaminoglycans. Digestion of matrix with chondroitin ABC lyase but not heparitinase or collagenase displaced some PDGF from its attachment sites. The results indicate attachment of PDGF to matrix proteoglycans, at least partly through the glycosaminoglycan moieties, and perhaps to additional components. The significance of matrix deposition for PDGF action is discussed.
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PMID:Accumulation of PDGF B and cell-binding forms of PDGF A in the extracellular matrix. 850 Nov 20

Adult mammalian ventricular myocytes are terminally differentiated cells, and the prevailing perception has been that DNA synthesis and repair are not active. We tested the hypothesis that there is potential for DNA synthesis and repair by studying the ability of whole-cell extracts from adult myocytes to incorporate [alpha-32P]dCTP into damaged plasmids. Left ventricular myocytes were isolated from adult cat hearts by collagenase dissociation. Cells were maintained in room air (control extract, CE) or made ischemic (IE) with N2 displacement of O2 and extracted for total protein. The nicked form of the plasmid was produced by exposure to an Fe3+/ascorbic acid free radical generating system. Both IE and CE degraded the supercoiled form of the plasmid and incorporated [alpha-32P]dCTP into the nicked (32P/DNA mass; CE = 2.2, IE = 3.0) and linear forms (32P/DNA mass; CE = 28.7, IE = 25.2). Exposure of plasmids to UV light did not inhibit incorporation of label. Inhibition studies with the cell extracts suggested a participation of polymerase delta in myocyte DNA repair/synthesis. Myocyte extract was as active as extract from rapidly growing COS cells at incorporating labeled nucleotides into plasmid DNA. The ability of intact myocytes to incorporate [alpha-32P]dCTP into endogenous DNA was measured in isolated cells made permeable with saponin. Studies were done in room air or N2. Permeable cells incorporated [alpha-32P]dCTP into nuclear DNA, but maximal specific activity of DNA was observed at 15 minutes with ischemia and at 60 minutes with room air control cells (ischemia, 1.34 +/- 0.5, 0.86 +/- 0.33, 0.60 +/- 0.04; air, 1.0, 1.28 +/- 0.20, 1.87 +/- 0.38, at 15, 30, and 60 minutes, respectively). These data indicate that mammalian adult ventricular myocytes can actively repair and/or synthesize both exogenous and endogenous DNA. A DNA synthetic response to cellular damage may have important pathological and clinical implications.
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PMID:DNA synthesis in adult feline ventricular myocytes. Comparison of hypoxic and normoxic states. 857 73


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