EC:3.1.30.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

6-Nitroso-1,2-benzopyrone and 3-nitrosobenzamide, two C-nitroso compounds that inactivate the eukaryotic nuclear protein poly(ADP-ribose) polymerase [NAD+:poly(adenosine diphosphate D-ribose) ADP-D-ribosyltransferase, ADPRT, EC 2.4.2.30] at one zinc-finger site, completely suppressed the proliferation of leukemic and other malignant human cells and subsequently produced cell death. Tumoricidal concentrations of the drugs were relatively harmless to normal bone marrow progenitor cells and to superoxide formation by neutrophil granulocytes. The cellular mechanism elicited by the C-nitroso compounds consists of apoptosis due to DNA degradation by the nuclear calcium/magnesium-dependent endonuclease. This endonuclease is maintained in a latent form by poly(ADP-ribosyl)ation, but inactivation of ADPRT by C-nitroso drugs derepresses the DNA-degrading activity. ADPRT is thus identified as a critical regulatory enzyme component of a DNA-binding multiprotein system that plays a central function in defining DNA structures in the intact cell.
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PMID:Induction of endonuclease-mediated apoptosis in tumor cells by C-nitroso-substituted ligands of poly(ADP-ribose) polymerase. 150 87

Incubation of isolated rat liver nuclei with ATP, NAD+, and submicromolar Ca2+ concentrations resulted in extensive DNA hydrolysis. Half-maximal activity occurred with 200 nM Ca2+, and saturation of the process was observed with 1 microM Ca2+. ATP stimulated a calmodulin-dependent nuclear Ca2+ uptake system which apparently mediated endonuclease activation. Ca2+-activated DNA fragmentation was inhibited by the inhibitor of poly(ADP-ribose) synthetase, 3-aminobenzamide, and was associated with poly(ADP-ribosyl)ation of nuclear protein. The characteristics of this endonuclease activity indicate that it may be responsible for the Ca2+-dependent fragmentation of DNA involved in programmed cell death (apoptosis) and in certain forms of chemically induced cell killing.
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PMID:Calcium-activated DNA fragmentation in rat liver nuclei. 270 97

The overall process of DNA biosynthesis can be divided into two major steps, one consisting essentially of nucleotide synthesis from low-molecular-weight metabolites and the other of polymerization of the nucleotides to form the duplicated DNA. Some antineoplastic agents are structural analogues of bases or nucleosides of intermediate metabolites, and are converted to their ribotides by enzymes catalyzing nucleotide metabolism. With some of these agents, the resulting ribotides then act as inhibitors of nucleotide synthesis. With others the resulting ribotides are subjected to stepwise enzymatic reactions and are then incorporated into DNA during its synthesis, thus rendering it inactive. Some antineoplastic agents, on the other hand, affect the DNA chain apparently through intercalation in double-stranded DNA, binding to DNA or nuclear protein, or interstrand linkage, or else through activation of endonuclease or inhibition of topoisomerase. The former effects result in inhibition of DNA double-strand dissociation, while the latter result in double-stranded DNA scission and apurinic acid formation. Antineoplastic agents thus vary widely, with respect to both the processes of their activation and inactivation and their effects on DNA synthesis. Their mechanisms of action and effects also tend to differ among various types of tumor cells and host organs. Investigation of the action mechanisms of these agents and determination of their appropriate utilization will be required in order to achieve better results in cancer chemotherapy.
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PMID:[Mechanism of action of antineoplastic agents in the DNA synthesis of tumor cells]. 329 63

A large body of circumstantial evidence indicates that receptors located in nuclei of T3 responsive tissues represent a site of initiation of thyroid hormone action at the cellular level. Partial characterization of T3 receptors indicates that these proteins are monomeric structures in nuclei and are chromatin-associated non-histone proteins. Treatment of rat liver nuclei with either pancreatic DNase I or micrococcal nuclease releases T3 receptors from nuclei in two forms: a predominant (95 400 Mr; 5.5-6.0S) and a minor (265 000-365 000 Mr; 12.5S) nucleoprotein complex. Similar structures are excised from rat kidney, brain, and heart nuclei and from GH1 pituitary cell nuclei by micrococcal nuclease digestion. These endonuclease-excised receptor-containing complexes are significantly larger than the salt-extracted receptor (50 000 Mr; 3.5S). The presence of DNA and other non-receptor proteins in these structures indicates that T3 receptors probably function within multimeric complexes in vivo. Although T3 receptors appear to be associated with DNA between nucleosomes, i.e. linker DNA, it is not entirely clear whether all or only a fraction of T3 receptors interact with nucleosomal components. The 12.5S receptor-containing nucleoprotein complex may represent T3 receptors in association with linker DNA and nucleosomal components. T3 receptors do not appear to be uniformly distributed to all chromatin fractions, but are associated with structures having characteristics of transcriptionally active chromatin. They are found in a region of chromatin which is enriched in RNA polymerase activity, rapidly labeled RNA and non-histone proteins, and depleted of histone Hl. This region is also highly sensitive to both micrococcal nuclease and pancreatic DNase I digestion. The association of receptors with transcriptionally active chromatin, however, must be considered provisional until additional details of the precise receptor-chromatin interaction have been established. The recent demonstration of a 20-fold increase in a specific hepatic mRNA four hours following administration of T3 to hypothyroid rats indicates that thyroid hormone potentially has very rapid effects on hepatic gene expression. However, significant changes in nuclear protein phosphorylation, nuclear protein composition, and chromatin structure have not been detected within this four-hour period. Thus, effects of T3 on hepatic gene expression are brought about by local and presumably subtle changes in nuclear function.
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PMID:Association of thyroid hormone receptors with chromatin. 631 18

With the aim of revealing endonuclease(s), activating in apoptotic cells, a nuclease activity of nuclear protein extract from human leukemic HL-60 cells treated with colchicine was studied. After a 30 h incubation with colchicine, a specific DNA fragmentation--a multiple of 200 base pair subunits--was clearly observed that was an evidence for the endonuclease activation. After 48 h almost the whole DNA was fragmented. At the same time histones appeared the major proteins of nuclear extract. Using the method for detection of nuclease activity in a gel, protein 37 kDa was identified as a Ca2+, Mg(2+)-dependent endonuclease. The maximum increase in nuclease activity occurred after a 24 h incubation with colchicine. A low activity of this protein was also found in control cells. These data suggest that in apoptotic cells activation of constantly expressed nucleases may occur, rather than a new synthesis of apoptotic nucleases.
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PMID:[Calcium and magnesium ion-dependent endonuclease 37 kDa is activated during colchicine-induced apoptosis in HL-60 cells]. 780 73

We have investigated protein-DNA interactions in the proximal promoter of the human amyloid precursor protein (APP) gene in temporal lobe neocortical nuclei isolated from control and Alzheimer disease (AD) affected brains. We report that the human APP 5' promoter sequence from -203 to +55 bp, which has been previously reported to contain essential regulatory elements for APP gene transcription, lies in a deoxyribonuclease I, micrococcal nuclease- and restriction endonuclease-sensitive, G+C-rich nucleosome-free gap flanked both 5' and 3' by typical nucleosome structures. As analyzed by electrophoretic mobility shift assay, this extended internucleosomal linker DNA is heavily occupied by nuclear protein factors, and interacts differentially with nuclear protein extracts obtained from HeLa and human brain neocortical nuclei. This suggests that the chromatin conformation of the APP gene promoter may vary in different cell types, and may correlate with differences in APP gene expression. Human recombinant transcription factors AP1, SP1 and TFIID (but not AP2 or brain histones H1, H2B and H4) interact with the -203 to +55 bp of the human APP promoter sequence. Only minor differences were observed in the chromatin structure of the immediate APP promoter between non-AD and AD affected neocortical nuclei, suggesting either that post-transcriptional processes, or that regulatory elements lying elsewhere in the APP gene may be important in the aberrant accumulation of the APP gene product.
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PMID:Protein-DNA interactions in the promoter region of the amyloid precursor protein (APP) gene in human neocortex. 801 72

To define the mechanisms of 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced transcription of the ornithine decarboxylase (ODC) gene, we isolated a genomic clone (hODC41B) of ODC from a human leukocyte genomic DNA library. The restriction endonuclease map, in comparison with the previously published sequences of the human ODC gene, indicated that hODC41B contained a 15.7-kb sequence that extended from the sixth exon to about 10 kb upstream of the ODC gene. A 2.5-kb genomic fragment containing the 5' flanking region and the first exon was subcloned and sequenced. Sequence analysis revealed multiple putative promoter/enhancer elements (a TATA box, a CAAT box, 17 GC boxes, and a cAMP-responsive element) but no consensus AP-1 sequences (TGAGTCA) in the 2.5-kb 5' flanking region. However, three AP-1 sequences were located in introns 3, 5, and 11. We constructed a series of chimeric genes containing part of the first exon and increasingly longer 5' flanking sequences of the ODC gene fused to either bacterial chloramphenicol acetyltransferase (CAT) or luciferase reporter genes. TPA inducibility was determined by transient transfection and measurement of CAT or luciferase expression in HeLa cells. The induction of CAT activity by TPA decreased with decreasing lengths of the 5' flanking sequences up to nt -82. The TPA induction from the construct -72 ODC CAT was threefold to sevenfold, and the TPA inducibility of the same fragment was about ninefold to 30-fold with the luciferase reporter gene. Further deletion analysis revealed TPA-responsive sequences in ODC nt -42 to +54. Gel mobility shift assays using alpha-32P-end labeled ODC nt -42 to +60 revealed that nt -42 to +60 specifically bound HeLa cell nuclear proteins. HeLa cell nuclear protein binding to ODC nt -42 to +60 could not be completely competed by AP-1-, AP-2-, AP-3-, or SP1-responsive sequences.
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PMID:Non-AP-1 tumor promoter 12-O-tetradecanoylphorbol-13-acetate-responsive sequences in the human ornithine decarboxylase gene. 804 98

Thymocyte apoptosis was analyzed in 4-week-old chicks that were treated with dexamethasone. Glucocorticoid treatment of birds resulted in the internucleosomal cleavage of thymocyte DNA as detected by agarose gel electrophoresis and the generation of a population of thymocyte nuclei with a hypodiploid content of cellular DNA when analyzed by flow cytometry. Visualization of apoptotic thymocytes at the ultrastructural level or via confocal microscopy revealed the typical morphological characteristics of cells undergoing apoptosis. Similar techniques were employed to further analyze apoptosis using an in vitro approach where extracts of thymocyte nuclear proteins from glucocorticoid-treated birds were incubated with chicken red blood cell (cRBC) nuclei. The thymocyte nuclear protein extract contained an endonuclease activity that degraded chromatin at internucleosomal sites and generated an amplified population of hypodiploid cRBC nuclei, similar to that detected in vivo in glucocorticoid-treated thymocytes. These data demonstrate a clear correlation between the detection of apoptotic endonuclease activity generated in vivo, where endogenous thymocyte DNA was degraded, with an in vitro assay, where extracted thymocyte nuclear proteins demonstrated a similar type of nuclease activity when cRBC nuclei were employed as an exogenous chromatin substrate.
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PMID:Analysis of thymic lymphocyte apoptosis using in vitro techniques. 839 8

The synthesis and rapid turnover of ADP-ribose polymers is an immediate cellular response to DNA damage. We report here the isolation and characterization of cDNA encoding poly(ADP-ribose) glycohydrolase (PARG), the enzyme responsible for polymer turnover. PARG was isolated from bovine thymus, yielding a protein of approximately 59 kDa. Based on the sequence of oligopeptides derived from the enzyme, polymerase chain reaction products and partial cDNA clones were isolated and used to construct a putative full-length cDNA. The cDNA of approximately 4.1 kilobase pairs predicted expression of a protein of approximately 111 kDa, nearly twice the size of the isolated protein. A single transcript of approximately 4. 3 kilobase pairs was detected in bovine kidney poly(A)+ RNA, consistent with expression of a protein of 111 kDa. Expression of the cDNA in Escherichia coli resulted in an enzymatically active protein of 111 kDa and an active fragment of 59 kDa. Analysis of restriction endonuclease fragments from bovine DNA by Southern hybridization indicated that PARG is encoded by a single copy gene. Taken together, the results indicate that previous reports of multiple PARGs can be explained by proteolysis of an 111-kDa enzyme. The deduced amino acid sequence of the bovine PARG shares little or no homology with other known proteins. However, it contains a putative bipartite nuclear location signal as would be predicted for a nuclear protein. The availability of cDNA clones for PARG should facilitate structure-function studies of the enzyme and its involvement in cellular responses to genomic damage.
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PMID:Isolation and characterization of the cDNA encoding bovine poly(ADP-ribose) glycohydrolase. 911 50

We purified a 44-kDa nuclear protein from salt-extract of permeable mouse ascites sarcoma cells in an effort to isolate factors involved in the repair of acid-depurinated DNA. It was copurified with a major AP endonuclease (APEX nuclease) by sequential column chromatography then further purified by sodium dodecyl sulphate-polyacrylamide gel electrophoresis as a possible DNA repair support factor. Its partial amino acid sequences were determined, and a cDNA clone for the protein was isolated from a mouse T-cell cDNA library using long degenerate oligonucleotide probes deduced from the amino acid sequence. The complete nucleotide sequence of the cDNA (1.7 kilobases) was determined. Northern hybridization using this cDNA detected two transcripts: 1.8 kb being the major one and 2.6 kb being the minor one. The complete amino acid sequence for the protein predicted from the nucleotide sequence of the cDNA indicates that the 44-kDa protein consists of 394 amino acids with a calculated molecular weight of 43,698. In tests performed thus far, the recombinant 44-kDa protein expressed in Escherichia coli has not expressed any repair-support activity. It remains to be analyzed whether the protein attains this activity after appropriate posttranslational modifications. Most parts of the 44-kDa protein cDNA and the deduced amino acid sequence were found to be identical to those of the protein p38-2G4, recently reported as a cell cycle-specifically modulated nuclear protein of 38kDa. The p38-2G4 may be a truncated form of the present 44-kDa protein.
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PMID:cDNA cloning, sequence analysis and expression of a mouse 44-kDa nuclear protein copurified with DNA repair factors for acid-depurinated DNA. 928 67

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