Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.4.4 (adenosine deaminase)
 5,136 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cultured mouse leukemia L1210 cells express the nucleoside-specific membrane transport processes designated es, ei, and cif. The es and ei processes are equilibrative, but may be distinguished by the high sensitivity of the former to 6-[(4-nitrobenzyl)thio]-9-beta-D-ribofuranosylpurine (NBMPR); the cif process is mediated by a Na+/nucleoside cotransporter of low sensitivity to NBMPR. Cells of an ei-deficient clonal line, L1210/MC5-1, were mutagenized, and clones were selected in soft agar medium that contained (i) NBMPR (an inhibitor of es processes), (ii) erythro-9-(2-hydorxy-3-nonyl)adenine (an inhibitor of adenosine deaminase), and (iii) arabinofuranosyladenine (a cytotoxic substrate for the three nucleotide transporters). The selection medium did not allow es activity and selected against cells that expressed the Na(+)-linked cif process. Cells of the L1210/B23.1 clonal isolate were deficient in cif transport activity, and inward fluxes of formycin B, a poorly metabolized analog of inosine, were virtually abolished by NBMPR in these cells. In the mutant cells, nonisotopic formycin B behaved as a countertransport substrate during influx of [3H]formycin B, and inward fluxes of the latter were competitively inhibited by purine and pyrimidine nucleosides. The transport behavior of L1210/B23.1 cells indicates that (i) the mutation/selection procedure impaired or deleted the Na(+)-linked cif process and (ii) es nucleoside transport activity is expressed in the mutant cells.
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PMID:L1210/B23.1 cells express equilibrative, inhibitor-sensitive nucleoside transport activity and lack two parental nucleoside transport activities. 151 37

To study the relationship between transcription and strand-specific repair of UV-induced cyclobutane pyrimidine dimers, dimer removal was analyzed in a cell line containing two alleles of an inactivated adenosine deaminase (ADA) gene. The cell line was derived from a patient suffering from severe combined immunodeficiency. The disease was caused by a deletion of the complete promoter of the gene as well as the first exon of the ADA gene. This resulted in a true null allele without any detectable transcription (Berkvens, T.M., Gerritsen, E. J. A., Oldenburg, M., Breukel, C., Wijnen, J. T. H., Van Ormondt, H., Vossen, J. M., Van der Eb, A. J., and Meera Khan, P. (1987) Nucleic Acids Res. 15, 9365-9378). Despite this lack of transcription, repair of the ADA gene in this cell line was found to be very efficient with 80% of the dimers being removed within 24 h after UV irradiation. However, the initial rapid repair which is associated with the transcribed strand in normal cells is absent. Dimer removal from two inactive loci, 754 and coagulation factor IX, was much less efficient with only 40% dimers removed after 24 h. From this data, we conclude that transcription is not required for efficient repair of a gene, but forms an additional signal for accelerated repair of the transcribed strand. Furthermore, we suggest that different levels of repair exist between non-transcribed sequences in active genes and those in repressed loci. The results are discussed in terms of the current ideas about the mechanism of preferential DNA repair in human cells.
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PMID:Transcription affects the rate but not the extent of repair of cyclobutane pyrimidine dimers in the human adenosine deaminase gene. 157 23

We have measured the removal of UV-induced pyrimidine dimers from DNA fragments of the adenosine deaminase (ADA) and dihydrofolate reductase (DHFR) genes in primary normal human and xeroderma pigmentosum complementation group C (XP-C) cells. Using strand-specific probes, we show that in normal cells, preferential repair of the 5' part of the ADA gene is due to the rapid and efficient repair of the transcribed strand. Within 8 h after irradiation with UV at 10 J m-2, 70% of the pyrimidine dimers in this strand are removed. The nontranscribed strand is repaired at a much slower rate, with 30% dimers removed after 8 h. Repair of the transcribed strand in XP-C cells occurs at a rate indistinguishable from that in normal cells, but the nontranscribed strand is not repaired significantly in these cells. Similar results were obtained for the DHFR gene. In the 3' part of the ADA gene, however, both normal and XP-C cells perform fast and efficient repair of either strand, which is likely to be caused by the presence of transcription units on both strands. The factor defective in XP-C cells is apparently involved in the processing of DNA damage in inactive parts of the genome, including nontranscribed strands of active genes. These findings have important implications for the understanding of the mechanism of UV-induced excision repair and mutagenesis in mammalian cells.
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PMID:Xeroderma pigmentosum complementation group C cells remove pyrimidine dimers selectively from the transcribed strand of active genes. 164 89

The effects of a number of purinoceptor agonists and antagonists on norepinephrine (NE) overflow were examined in the electrically field-stimulated rat vas deferens. The P1 receptor agonists adenosine and 2-chloroadenosine and the P2 receptor agonists ATP and beta, gamma-methylene ATP all reduced the overflow of NE, which was quantified by high-performance liquid chromatography-electrochemical detection techniques. The P1 receptor antagonist 8-(p-sulfophenyl)-theophylline (8-SPT) and the P2 receptor desensitizing agent alpha, beta-methylene ATP blocked the inhibitory effects of both P1 and P2 receptor agonists. The pyrimidine nucleotide UTP also inhibited NE overflow and this effect was antagonized by 8-SPT. The adenosine uptake inhibitor S-p-nitrobenzyl-6-thioguanosine potentiated and adenosine deaminase blocked the inhibitory effect of adenosine on NE overflow but neither had any effect on the ability of the adenine nucleotides to inhibit NE overflow. These results indicate that adenine nucleotides can act per se, without conversion to adenosine, on a prejunctional receptor to inhibit the release of NE. Because the effects of the adenine nucleotides are antagonized by 8-SPT, it appears that they act at the same receptor as the adenine nucleosides. UTP apparently acts at this receptor as well. These findings suggest that prejunctional purinoceptors on the sympathetic nerves of the rat vas deferens differ from P1 or P2 receptors as usually defined and thus may represent a unique class of receptor (P3) as has been suggested for the prejunctional receptors of the rat caudal artery.
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PMID:Nucleotide modulation of norepinephrine release from sympathetic nerves in the rat vas deferens. 167 77

Conditions for labeling the dATP pool of V79 and 3T3 cells from [3H]deoxyadenosine (salvage) or [3H]adenine (via ribonucleotide reduction) were established. With deoxyadenosine the specific radioactivity of dATP reached a constant value after 60 min. In resting 3T3 cells this value was 30 times higher than in S-phase cells. Turnover of dATP and absolute rates of DNA synthesis and excretion of breakdown products of dATP were determined from the accumulation of isotope in various compartments and the specific activity of dATP. In S-phase cells the dATP pool had a half-life of 4 min, identical to that of dTTP determined earlier. Deoxyadenosine was the major breakdown product of dATP in the presence of an inhibitor of adenosine deaminase. The rate of deoxyadenosine excretion of V79 cells amounted to 4% of the rate of dATP incorporation into DNA. Inhibition of DNA replication increased deoxyadenosine excretion 5- to 10-fold, demonstrating a continued de novo synthesis of dATP, albeit at a slightly reduced rate. Our results fit a model involving a substrate cycle between dAMP and deoxyadenosine regulating the dATP pool, similar to the model of substrate cycles involved in the regulation of pyrimidine deoxyribonucleotide pools developed earlier.
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PMID:Dynamics of the dATP pool in cultured mammalian cells. 173 53

The mutagenic effects of 2-aminopurine (2AP) have been compared in the adenine-3 (ad-3) region of two-component heterokaryons of Neurospora crassa: nucleotide excision repair-proficient (uvs-2+/uvs-2+) heterokaryon 12 (H-12) and nucleotide excision repair-deficient (uvs-2/uvs-2) heterokaryon 59 (H-59). This forward-mutation, morphological and biochemical, specific-locus assay system permits the recovery of ad-3A and/or ad-3B mutants in 3 major classes: gene/point mutations, multilocus deletion mutations, and unknowns, and 3 different subclasses of multiple-locus mutations. Previous studies (Brockman et al., Mutation Res., 218 (1989) 1-11) showed that 2AP treatment of growing cultures of H-12 and H-59 gave no difference between ad-3 forward-mutation frequencies over a wide range of 2AP concentrations in each strain. In the present experiments, genetic analyses of ad-3 mutants recovered from these experiments has demonstrated qualitative differences between the spectra of the 3 main classes of ad-3 mutations. In H-12, 84.2% (203/241) resulted from gene/point mutation, 11.6% (28/241) from multilocus deletion mutation, and 4.1% (10/241) were unknowns. In contrast, in H-59, 43.0% (99/230) resulted from gene/point mutation, 55.7% (128/230) from multilocus deletion mutation, and 1.3% (3/230) were unknowns. In addition, quantitative differences were also found between the spectra of ad-3 mutations in 1 subclass of multiple-locus mutations, but not 2 additional subclasses. The first subclass consisted of 1.7% (4/241) and 9.6% (22/230) gene/point mutations with a closely linked recessive lethal mutation, in H-12 and H-59, respectively. The second two subclasses consisted of (a) 0.4% (1/241) and 0.4% (1/230) multilocus deletion mutations with a closely linked recessive lethal mutation, and (b) 13.3% (32/241) and 15.2% (35/230) gene/point mutations with a separate recessive lethal mutation elsewhere in the genome, in H-12 and H-59, respectively. Data from studies by others have shown that 2AP inhibits adenosine deaminase, resulting in nucleotide precursor pool inbalance, and that 2AP can saturate the mismatch repair system. As a consequence of either effect of 2AP, the spectrum of 2AP-induced mutation could include frameshift mutations and chromosome aberrations such as multilocus deletions in addition to base-pair substitutions. The defect in DNA repair due to the uvs-2 allele, which has been shown to be a deficiency in pyrimidine dimer excision (Worthy and Epler, 1974), most probably has some other excision-repair deficiency (Macleod and Stadler, 1986; Baker et al., 1991).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Qualitative differences in the spectra of genetic damage in 2-aminopurine-induced ad-3 mutants between nucleotide excision-repair-proficient and -deficient strains of Neurospora crassa. 183 36

Chlamydiae are obligate intracellular bacteria that are dependent on eukaryotic host cells for ribonucleoside triphosphates. The purpose of the present study was to determine whether Chlamydia trachomatis obtains deoxyribonucleotides from the host cell. The study was aided by the finding that host and parasite DNA synthesis activity could be distinguished by their differing sensitivities to aphidicolin and norfloxacin. Results from isotope incorporation experiments indicated that any nucleobase or ribonucleoside that could serve as a precursor for host DNA synthesis could also be utilized by C. trachomatis for DNA replication. C. trachomatis utilized only those precursors which the host cell converted to the nucleotide level. Pyrimidine deoxyribonucleotides were efficient precursors for host DNA synthesis; however, they were not used by C. trachomatis. On the other hand, purine deoxyribonucleosides are rapidly catabolized by host cells, it is necessary to regulate their metabolism to determine whether they serve as direct precursors for C. trachomatis DNA synthesis. This was partially achieved by using a hypoxanthine-guanine phosphoribosyltransferase-negative cell line and using deoxycoformycin and 8-aminoguanosine as inhibitors of (deoxy)adenosine deaminase and purine nucleoside phosphorylase, respectively. The results indicated that purine deoxyribonucleosides are efficiently utilized for host cell DNA synthesis even if degradation pathways are inhibited and salvage to ribonucleotides is minimized. In sharp contrast, the purine deoxyribonucleosides were utilized by C. trachomatis as precursors for DNA synthesis only when host catabolic pathways and salvage reactions were intact. High-pressure liquid chromatographic analysis of nucleotide pools extracted from host cells pulsed with radiolabeled precursors suggests that infected cells transport and phosphorylate all deoxynucleosides as effectively as mock-infected control cultures. In aggregate, these results show that chlamydiae do not take up deoxyribonucleotides from the host cells.
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PMID:In situ studies on incorporation of nucleic acid precursors into Chlamydia trachomatis DNA. 190 63

The influence of terminal differentiation on UV-induced DNA damage and its repair in transcriptionally active and inactive genomic sequences was investigated using the murine 3T3-T proadipocyte cell culture system. Actively cycling 3T3-T cells terminally differentiate into adipocytes after exposure to media containing platelet-depleted human plasma. Suitable DNA fragments were analyzed from four genes: beta-actin, adenosine deaminase, dihydrofolate reductase, and lipoprotein lipase. As a result of 3T3-T cell differentiation, lipoprotein lipase and beta-actin expression was modified, whereas adenosine deaminase and dihydrofolate reductase expression was not affected. A DNA fragment representing the transcriptionally inactive locus 70-38 was also evaluated. UV-induced cyclobutane pyrimidine dimers, detected as UV-specific endonuclease-sensitive sites, in each fragment increased linearly as a function of UV dose (0-20 J/m2) independently of gene expression or differentiation. Sequence-specific repair of dimers was measured in stem and terminally differentiated 3T3-T cells after UV irradiation (10 J/m2). For undifferentiated stem cells, the rate and extent of dimer repair was higher in the actively transcribed adenosine deaminase and dihydrofolate reductase genes than in the inactive lipoprotein lipase or 70-38 fragments, the greater difference being observed in the first 8 h post-UV irradiation. In contrast, similar dimer repair rates were found for each DNA fragment in terminally differentiated 3T3-T cells. These data suggest that cellular differentiation is accompanied by a loss of heterogeneity in intragenomic DNA repair.
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PMID:Loss of intragenomic DNA repair heterogeneity with cellular differentiation. 193 6

Liver plasma membrane ecto-ATPase activity is largely restricted to the bile canalicular membrane. To determine whether a transport process is also selectively present on this membrane surface to reclaim adenosine derived from the intracanalicular degradation of ATP, the characteristics of hepatic nucleoside transport were examined in canalicular (cLPM) and basolateral (blLPM) rat liver plasma membrane vesicles. In the presence of the adenosine deaminase inhibitor, deoxycoformycin, an inwardly directed Na+ gradient markedly stimulated [3H]adenosine uptake in cLPM vesicles. Canalicular Na(+)-dependent [3H]adenosine uptake was enhanced by an intravesicular-negative membrane potential and inhibited by dissipation of the Na+ gradient with gramicidin D. Both purine and pyrimidine nucleosides inhibited canalicular adenosine transport. 6-[(4-Nitrobenzyl)thio]-9-beta-D-ribofuranosylpurine, an inhibitor of nucleoside transport in erythrocytes and nonepithelial cells, had no effect on canalicular adenosine transport. Canalicular Na(+)-dependent [3H]adenosine uptake exhibited saturability with a Michaelis-Menten constant of 8.3 microM and a maximum transport rate of 7.6 pmol.5 s-1.mg protein-1. In contrast, [3H]adenosine uptake in blLPM vesicles was not stimulated by an inwardly directed Na+ gradient. These findings demonstrate asymmetric distribution of hepatic Na(+)-dependent nucleoside transport. Reclamation of intracanalicular adenosine resulting from ecto-ATPase activity may explain the presence of this transport process selectively on the bile canalicular membrane.
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PMID:Adenosine transport in rat liver plasma membrane vesicles. 195 95

A series of unsaturated analogues of nucleosides were prepared and their cytotoxic, antitumor, and antiviral activities were investigated. Alkylation of cytosine with (E)-1,4-dichloro-2-butene gave chloro derivative 2f, which was hydrolyzed to alcohol 2h. Cytosine, adenine, 2-amino-6-chloropurine, thymine, and (Z)-1,4-chloro-2-butene gave compounds 4c-f, which, after hydrolysis, afforded alcohols 4a, 4b, 4g, and 4h. Alkenes 4d and 4e were cyclized to heterocycles 12 and 13. Alkylation of 2,6-diaminopurine with 1,4-dichloro-2-butyne led to chloro derivative 6a, which was hydrolyzed to alcohol 6b. Allenic isomerization of 6b gave compound 5c. Chloro derivatives 2e-g, 4c-f, 5d, and 6c-e as well as pyrimidine oxacyclopentenes 9c and 9d are slow-acting inhibitors of murine leukemia L1210 of IC50 10-100 microM. The most active were analogues 4c, 4d, 4e, and 6e (IC50 10-20 microM). The corresponding hydroxy derivatives were less active of inactive. Inhibition of macromolecular synthesis with compounds 4c, 4d, 6e, 9c, and 9d follows the order: DNA greater than RNA greater than or equal to protein. Cytotoxic effects of 4c, 6e, and 9d are not reversed with any of the four basic ribonucleosides or 2'-deoxyribonucleosides. Inhibitory activity of cytosine derivative 9c is reversed with uridine and 2'-deoxyuridine but not with the corresponding cytosine nucleosides. Zone assays in several tumor cell lines show that active compounds are cytotoxic agents with little selectivity for tumor cells. Analogue 6c showed 16.7% ILS in leukemia P388/o implanted ip in mice at 510 and 1020 mg/kg, respectively. Cytallene (5b) and 6'beta-hydroxyaristeromycin (10) exhibited significant activity against Friend and Rauscher murine leukemia viruses. The rest of the hydroxy derivatives, with the exception of 4a, were moderately effective or inactive as antiviral agents. None of the chloro derivatives or oxacyclopentenes exhibited an antiviral effect at noncytotoxic concentrations. Z-Olefin 4b and 2-aminoadenallene (5c) are substrates for adenosine deaminase.
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PMID:Unsaturated and carbocyclic nucleoside analogues: synthesis, antitumor, and antiviral activity. 199 43


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