Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Human NK cells (with CD3-/56+ phenotype) acquired features characteristic of apoptosis after incubation with autologous monocytes, as revealed by apoptotic nuclear morphology, degradation of DNA into oligonucleosomal fragments, and reduced nuclear interchalation of propidium iodide. In contrast, T cells (CD3+/56-) remained non-apoptotic. The monocyte-induced apoptosis in NK cells was prevented by catalase, a scavenger of hydrogen peroxide; whereas superoxide dismutase (a scavenger of superoxide anion), hydroxyl radical scavengers such as mannitol and deferoxamine, or the hypochlorus acid scavenger taurine did not prevent apoptosis. Sodium azide, a myeloperoxidase inhibitor, substantially reduced the monocyte-induced apoptosis in NK cells. Exogenous hydrogen peroxide, at concentrations exceeding 1 microns, induced apoptosis in both NK and T cells. Apoptosis induced by hydrogen peroxide occurred independently of synthesis of protein or mRNA and was blocked by the endonuclease inhibitor aurin tricarboxylic acid. Furthermore, oxidatively induced apoptosis in NK cells was inhibited by herbimycin A, indicating that apoptosis was dependent on protein kinases. Two to five times more hydrogen peroxide was required to induce apoptosis in T cells compared with NK cells. Similarly, NK cells were considerably more susceptible to apoptosis induced by the topoisomerase II inhibitor etoposide or by gamma-irradiation than were T cells. We conclude that monocyte-derived reactive oxygen metabolites kill NK cells by apoptosis and that NK cells are unusually sensitive to oxidatively as well as non-oxidatively induced apoptosis.
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PMID:Induction of apoptosis in NK cells by monocyte-derived reactive oxygen metabolites. 859 91

Chronic exposure of humans to benzene (BZ) causes acute myeloid leukemia (AML). Both BZ and therapy-related secondary AML are characterized by chromosomal translocations that may occur by inappropriate recombinational events. DNA topoisomerase II (topo II) is an essential sulfhydryl (SH)-dependent endonuclease required for replication, recombination, chromosome segregation, and chromosome structure. Topo II cleaves DNA at purine(R)/pyrimidine(Y) repeat sequences that have been shown to be highly recombinogenic in vivo. Certain antineoplastic drugs stabilize topo II-DNA cleavage complexes at RY repeat sequences, which leads to translocations of the type observed in leukemia. Hydroquinone (HQ) is metabolized to p-benzoquinone (BQ) in a peroxidase-mediated reaction in myeloid progenitor cells. BQ interacts wit SH groups of SH-dependent enzymes. Consequently, the aims of this research were to determine whether HQ and BQ are topo II inhibitors. The ability of the compounds to inhibit the activity of topo III was tested using an assay system that depends on the conversion, by homogeneous human topo II, of catenated kinetoplast DNA into open and/or nicked open circular DNA that can be separated from the catenated DNA by electrophoresis in a 1% agarose-ethidium bromide gel. We provide preliminary data that indicate that both HQ and BQ cause a time and concentration (microM)-dependent inhibition of topo II activity. These compounds, which potentially can form adducts with DNA, have no effect on the migration of the supercoiled and open circular forms in the electrophoretic gradient, and BQ-adducted KDNA can be decatenated by topo II. Using a pRYG plasmid DNA with a single RY repeat as a cleavage site, it was determined that BQ does not stimulate the production of linear DNA indicative of an inhibition of topo II religation of strand breaks by stabilization of the covalent topo III-DNA cleavage complex. Rather, BQ most probably inhibits the SH-dependent topo II by binding to an essential SH group. The inhibition of topo II by BQ has implications for the formation of deleterious translocations that may be involved in BZ-induced initiation of leukemogenesis.
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PMID:Inhibition of human DNA topoisomerase II by hydroquinone and p-benzoquinone, reactive metabolites of benzene. 911 3

A new qualitative PCR product detection assay called competitive amplified single mutation detection by selective probe hybridization immunoassay (CASSI) was developed for genotyping the most common apolipoprotein E (apoE) polymorphisms. Single target DNA strands immobilized using biotin on streptavidin-coated microplates were hybridized in separate wells with two distinct, 5'-fluorescein isothiocyanate (FITC)-labeled oligonucleotides, complementary to either the 112Arg or 158Arg encoding site. With this assay, only correctly matched hybrids that form between probe and target DNA can be cleaved with the HhaI restriction endonuclease, leading to loss of probe label in corresponding wells. However, allele-specific, probe-target mismatches due to G-->T exchanges in the HhaI recognition sequences are not cleaved. After digestion, the remaining microplate-adsorbed signal is measured colorimetrically by using anti-FITC, Fab-horseradish peroxidase conjugates. Our results show maximum intensity was detected when the respective probe hybridized incompletely to the target (i.e., no cleavage), and minimum signal was obtained when the probe matched the target completely (complete cleavage); whereas, an intermediate signal was recorded at 50% complementarity (i.e., heterozygote alleles). With this assay, we could demonstrate a high prevalence of the apoE2 allele in patients suffering from coronary artery disease even though they displayed normal triglyceride and cholesterol levels. Corresponding results were obtained by CASSI compared with conventional restriction fragment-length polymorphism analysis.
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PMID:Genotyping of human apolipoprotein E alleles by the new qualitative, microplate-based CASSI-detection assay. 966 80

We have purified an approximately 60 kDa endoribonuclease from Xenopus liver polysomes with properties expected for a messenger RNase involved in the estrogen-regulated destabilization of serum protein mRNAs (Dompenciel et al., 1995, J Biol Chem 270:6108-6118). The present report describes the cloning of this protein and its identification as a novel member of the peroxidase gene family. This novel enzyme, named polysomal RNase 1, or PMR-1 has 57% sequence identity with myeloperoxidase, and like that protein, appears to be processed from a larger precursor. Unlike myeloperoxidase, however, PMR-1 lacks N-linked oligosaccharide, heme, and peroxidase activity. Western blot and immunoprecipitation experiments using epitope-specific antibodies to the derived protein sequence confirm the identity of the cloned cDNA to the protein originally isolated from polysomes. The 80 kDa pre-PMR-1 expressed in a recombinant baculovirus was not processed to the 60 kDa form in Sf9 cells and lacks RNase activity. However, the baculovirus-expressed mature 60-kDa form of the enzyme has RNase activity. The recombinant protein is an endonuclease that shows selectivity for albumin versus ferritin mRNA. While it does not cleave at consensus APyrUGA elements, recombinant PMR-1 generates the same minor cleavage products from albumin mRNA as PMR-1 purified from liver. Finally, we show estrogen induces only a small increase in the amount of PMR-1. This result is consistent with earlier data suggesting estrogen activates mRNA decay through a posttranslational pathway.
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PMID:A polysomal ribonuclease involved in the destabilization of albumin mRNA is a novel member of the peroxidase gene family. 984 52

The present study examined the immunohistochemical expression of human AP endonuclease 1 (HAP1/Ref-1), the major endonuclease in the repair of apurinic/apyrimidinic (AP) sites in cellular DNA, in normal lung and lung carcinomas. Cellular expression of HAP1 was determined using a standard avidin-biotin-peroxidase complex (ABC) technique and an anti-HAP1 rabbit polyclonal antibody on paraffin-embedded tissue sections from normal lung and in 103 primary non-small cell lung carcinomas (NSCLCs). In normal lung, the staining for HAP1 was found to be both nuclear and cytoplasmic in the pneumocytes of the alveoli. Superficial ciliated cells of the bronchial epithelium presented cytoplasmic staining, while staining for the basal cells was mostly nuclear. Bronchial glandular cells demonstrated mixed nuclear and cytoplasmic staining. Lung carcinomas showed all patterns of expression for HAP1. Loss of HAP1 expression was associated with low proliferation index (p=0.01) and with squamous histology (p=0.04). In squamous carcinomas, a significant correlation was observed between positive nuclear HAP1 and negative p53 expression (p=0.03). A survival benefit was seen in patients presenting nuclear HAP1 expression and those presenting the nuclear HAP1+/p53- phenotype (p=0.01 and 0.007, respectively). It is concluded that nuclear HAP1 localization may be relevant to its role as a DNA repair protein and/or to the recently proposed role as an activator of wild-type p53, and thus to the better outcome seen in this group of patients.
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PMID:Nuclear localization of human AP endonuclease 1 (HAP1/Ref-1) associates with prognosis in early operable non-small cell lung cancer (NSCLC). 1054 96

Previous work from this laboratory identified a polysome-associated endonuclease whose activation by estrogen correlates with the coordinate destabilization of serum protein mRNAs. This enzyme, named polysomal ribonuclease 1, or PMR-1, is a novel member of the peroxidase gene family. A characteristic feature of PMR-1 is its ability to generate in vitro degradation intermediates by cleaving within overlapping APyrUGA elements in the 5'-coding region of albumin mRNA. The current study sought to determine whether the in vivo destabilization of albumin mRNA following estrogen administration involves the generation of decay intermediates that could be identified as products of PMR-1 cleavage. A sensitive ligation-mediated polymerase chain reaction technique was developed to identify labile decay intermediates, and its validity in identifying PMR-1-generated decay intermediates of albumin mRNA was confirmed by primer extension experiments performed with liver RNA that was isolated from estrogen-treated frogs or digested in vitro with the purified endonuclease. Ligation-mediated polymerase chain reaction was also used to identify decay intermediates from the 3'-end of albumin mRNA, and as a final proof of principle it was employed to identify in vivo decay intermediates of the c-myc coding region instability determinant corresponding to sites of in vitro cleavage by a polysome-associated endonuclease.
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PMID:Identification of in vivo mRNA decay intermediates corresponding to sites of in vitro cleavage by polysomal ribonuclease 1. 1115 74

Estrogen induces a global change in the translation profile of Xenopus hepatocytes, replacing serum protein synthesis with production of the yolk protein precursor vitellogenin. This is accomplished by the coordinate destabilization of serum protein mRNAs and the transcriptional induction and subsequent stabilization of vitellogenin mRNA. Previous work identified an endonuclease activity whose appearance on polysomes correlated with the disappearance of serum protein mRNAs. This enzyme, polysomal ribonuclease 1 (PMR1), is a novel member of the peroxidase gene family. The current study examined the association of PMR1 with its mRNA targets on polysomes and mRNPs. The highest amount of polysome-bound PMR1 was observed prior to estrogen induction of mRNA decay. Its distribution on sucrose density gradients matched the absorbance profile of polysome-bound mRNA, suggesting that PMR1 forms a latent complex with mRNA. Following dissociation with EDTA the 62 kDa PMR1 sedimented with a larger complex of >670 kDa. Estrogen induces a 22-fold increase in unit enzymatic activity of polysome-bound PMR1, and a time-dependent loss of PMR1 from polysomes in a manner that mirrors the disappearance of albumin mRNA. These data suggest that the key step in the extensive estrogen-induced change in mRNA decay in Xenopus liver is activation of a latent mRNA endonuclease associated with its target mRNA.
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PMID:Polysomal ribonuclease 1 exists in a latent form on polysomes prior to estrogen activation of mRNA decay. 1122 65

A mutation (CCG-->CTG [Arg-->Leu]) in codon 463 of katG (catalase peroxidase) of Mycobacterium tuberculosis has been found in isoniazid (INH)-resistant strains. A PCR restriction endonuclease analysis to detect this mutation was applied to 395 M. tuberculosis isolates from patients in The Netherlands. The proportion of isolates with a detectable mutation was 32% (32 out of 100) and 29% (85 out of 295) among INH-susceptible isolates and INH-resistant or -intermediate isolates, respectively. Sequencing of five INH-susceptible isolates with such mutations showed that all five had the Arg463Leu mutation. We conclude that the Arg463Leu mutation of katG of M. tuberculosis is not a reliable indicator of INH resistance.
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PMID:The susceptibility of Mycobacterium tuberculosis to isoniazid and the Arg-->Leu mutation at codon 463 of katG are not associated. 1128 93

The gastric pathogen Helicobacter pylori induces a strong inflammatory host response, yet the bacterium maintains long-term persistence in the host. H. pylori combats oxidative stress via a battery of diverse activities, some of which are unique or newly described. In addition to using the well-studied bacterial oxidative stress resistance enzymes superoxide dismutase and catalase, H. pylori depends on a family of peroxiredoxins (alkylhydroperoxide reductase, bacterioferritin co-migratory protein and a thiol-peroxidase) that function to detoxify organic peroxides. Newly described antioxidant proteins include a soluble NADPH quinone reductase (MdaB) and an iron sequestering protein (NapA) that has dual roles - host inflammation stimulation and minimizing reactive oxygen species production within H. pylori. An H. pylori arginase attenuates host inflammation, a thioredoxin required as a reductant for many oxidative stress enzymes is also a chaperon, and some novel properties of KatA and AhpC were discovered. To repair oxidative DNA damage, H. pylori uses an endonuclease (Nth), DNA recombination pathways and a newly described type of bacterial MutS2 that specifically recognizes 8-oxoguanine. A methionine sulphoxide reductase (Msr) plays a role in reducing the overall oxidized protein content of the cell, although it specifically targets oxidized Met residues. H. pylori possess few stress regulator proteins, but the key roles of a ferric uptake regulator (Fur) and a post-transcriptional regulator CsrA in antioxidant protein expression are described. The roles of all of these antioxidant systems have been addressed by a targeted mutant analysis approach and almost all are shown to be important in host colonization. The described antioxidant systems in H. pylori are expected to be relevant to many bacterial-associated diseases, as genes for most of the enzymes carrying out the newly described roles are present in a number of pathogenic bacteria.
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PMID:The diverse antioxidant systems of Helicobacter pylori. 1687 43

Mesophyll protoplasts of plastome chlorophyll-deficient, streptomycin-resistant Nicotiana tabacum were fused with those of wild type Atropa belladonna using the polyethylene-glycol/high Ca++/dimethylsulfoxide method. Protoplasts were cultured in nutrient media suitable for regeneration of tobacco but not Atropa cells. In two experiments, a total of 41 cell lines have been selected as green colonies. Cytogenetic (chromosomal number and morphology) and biochemical (isozyme analyses of esterase, amylase and peroxidase) studies were used to evaluate the nuclear genetic constitution of regenerated plants. To study plastid genetic constitution, restriction endonuclease analysis of chloroplast DNA was performed. Three groups of regenerants have been identified: (a) nuclear hybrids (4 cell lines); (b) Atropa plants, most probably arising from rare surviving parental protoplasts (4 lines) and (c) Nicotiana/Atropa cybrids possessing a tobacco genome and an Atropa plastome (33 lines). Most of cybrids obtained were diploid, morphogenetically normal plants phenotypically similar to tobacco. Some plants flowered and yielded viable seeds. Part of cybrid regenerants were variegated, variegation being transmitted to sexual progeny. Electron microscopic analysis of the mesophyll cells of variegated leaves revealed the presence of heteroplastidic cells. Analysis of thylakoid membrane polypeptides shows that in the cybrids the content of at least one of the major polypeptides, presumably a chlorophyll a/b binding protein is drastically reduced.
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PMID:Functional cybrid plants possessing a Nicotiana genome and an Atropa plastome. 1718 22


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