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:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During eukaryotic DNA synthesis there is formation of, in addition to Okazaki fragments, discrete 10-kilobase (kb) DNA replication intermediates. We have investigated the ligation of 10-kb DNA replication intermediates to high molecular weight DNA, using the drug 3-aminobenzamide, an inhibitor of poly(ADP-ribose) synthetase. In human melanoma cells treated with this inhibitor, there is an accumulation of 10-kb DNA. In contrast, in cells treated with aphidicolin, which inhibits DNA polymerase alpha, there is continued ligation of 10-kb DNA to high molecular weight DNA. Furthermore, using sequential treatment with aphidicolin and 3-aminobenzamide, one can observe the conversion of radiolabeled Okazaki fragments into 10-kb intermediates. The 10-kb DNA pieces are, however, not ligated to high molecular weight DNA in the presence of 3-aminobenzamide. Our results imply that functioning poly(ADP-ribose) synthetase is necessary for the ligation process.
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PMID:Accumulation of 10-kilobase DNA replication intermediates in cells treated with 3-aminobenzamide. 298 39

We have looked for the presence of single-stranded DNA in human melanoma cells. Single-stranded DNA was observed by lysis of cells in dilute alkali (to partly denature the DNA) followed by CsCl gradient centrifugations. In normally growing cells we did not observe single-stranded DNA whereas large amounts were present in cells treated with aphidicolin (an inhibitor of DNA polymerase alpha). The single-stranded DNA is much larger (greater than 20 kb) than Okazaki fragments. When the cells were washed free of aphidicolin, the single-stranded DNA was converted to high molecular weight DNA. Furthermore, when DNA synthesis is recovering after drug treatment, the single-stranded DNA disappears. The single-stranded DNA represents a transient step during the maturation of newly synthesized DNA.
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PMID:Extensive regions of single-stranded DNA in aphidicolin-treated melanoma cells. 312 11

A variety of factors were found to modify the toxicity of L-dopa in HeLa cells (D37 16 microM) and in dopa-sensitive, nonpigmented human melanoma cells (MM96) (D37 5 microM) having a similar size and doubling time. Dopa toxicity was decreased by concurrent treatment with superoxide dismutase, peroxidase or catalase, by erythrocytes, or by hypoxia. Toxicity could be increased by the enzyme inhibitors L- and D-penicillamine, sodium diethyldithiocarbamate or 3-amino-1,2,4-triazole. The two cell lines had similar levels of superoxide dismutase and peroxidase; in 6 human melanoma lines, no correlation was found between dopa killing and tyrosinase activity as determined either by formation of dopa from tyrosine or by formation of melanin from dopa. Uptake of L-dopa was similar in HeLa and MM96 cells, and the toxicity of D-dopa was the same in both lines as that of the L-isomer. Dopa decomposed within 12 hr in culture medium, the rate and products being influenced by addition of the above enzymes and by the cell density. Dopa-melanin and medium containing decomposed dopa were also selectively toxic to MM96 cells. Adenovirus 5 was used in two different ways to assess the relative importance of DNA damage and inhibition of DNA synthesis by dopa. Viral replication was found to be unaffected in cells being treated with dopa but was strongly inhibited in cells treated with the DNA polymerase inhibitor cytosine arabinoside. Secondly, the virus was itself inactivated by treatment with dopa for 24 hr (D37 1.3 mM); similar dose response curves were obtained for replication of dopa-treated virus in untreated HeLa or MM96 cells. These results show that the initial events of dopa toxicity occur outside the cell and lead to the formation of a stable, toxic product (probably melanin) which does not strongly inhibit DNA polymerase activity. Melanoma hypersensitivity was not due to differences in oxygen-metabolizing enzymes, dopa uptake, or DNA repair.
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PMID:Modification of dopa toxicity in human tumour cells. 392 49

The distribution in human tissues has been determined of the new DNA polymerase activity designated DNA polymerase Cm, first isolated from the human melanoma cell line A-375. Tissue samples were fractionated by ion exchange chromatography on diethylaminoethyl cellulose and phosphocellulose and by affinity chromatography on poly(2'-O-methylcytidylate)-Sepharose. DNA polymerase activity was monitored with poly(2'-O-methylcytidylate) . oligodeoxyguanylate and poly(adenylate) . oligodeoxyribothymidylate, the most specific and most sensitive template primers, respectively, for DNA polymerase Cm. Tissues were scored as to presence or absence of detectable DNA polymerase Cm activity as well as to their validity for scoring dependent on content of total DNA polymerase activity. On this basis, seven of 14 malignant and none of 11 normal or embryonic tissues were found to contain detectable levels of DNA polymerase Cm.
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PMID:Distribution of DNA polymerase Cm in normal and malignant human tissues. 615 70

In our laboratory, we have studied the mechanism of action of tumor-inhibitory antibiotics, including bleomycin, phleomycin, adriamycin, aclarubicin, neothramycin, macromomycin, auromomycin, chartreusin, pluramycin, neopluramycin, xanthomycin A, angustmycins A and C, blasticidin S and phenomycin. The recent advances are summarized. Screening of microorganism for new antitumor antibiotics based upon our studies on mechanism of action are currently ongoing. We are interested in drug-resistance of tumor cells, and have obtained drug-resistant sublines of murine lymphoblastoma L5178Y cells. We have found that glycoprotein synthesis and alkaline phosphodiesterase (APD) activity of the plasma membrane are higher in adriamycin (ADM)-, aclarubicin (ACR)- and bleomycin (BLM)-resistant cell sublines than in the parental cells. An inhibitor of APD has been isolated from a soil Streptomyces, and identified with 2-crotonyloxymethyl-4,5,6-trihydroxycyclohex-2-enone (COTC). COTC inhibits growth of the drug-resistant cells more significantly than the parental cells, and exhibits synergistic activity with ACR against ACR-resistant cells. COTC is a SH inhibitor. Although COTC is a multifunctional drug, the inhibition of DNA polymerase alpha and some mitotic process may be related to its lethal action. In the course of our screening, we have found that a strain of Sterptomyces hygroscopicus produces two substances: one inhibits thymidine and uridine uptake of human leukemic K562 cells, and the other stimulates it. The inhibiting substance has been identified with tubercidin, and the stimulating one has been found to be a novel pyrrolo [2,3-d] pyrimidine antibiotic, cadeguomycin. Cadeguomycin shows low acute toxicity in mice, enhances DTH reaction, and inhibits Ehrlich ascitic carcinoma in mice. The antibiotic exhibits synergistic effects with arabinosylcytosine against growth of K562 cells. Saframycin, discovered by Prof. Arai, Chiba University, is effective against Ehrlich ascitic carcinoma, P388 and L1210 leukemia, and B16 melanoma in mice. The target is DNA. Stubomycin, discovered by Dr. Umezawa, Kitasato Institute, is effective against Sarcoma 180, Ehrlich carcinoma, P388 leukemia, IMC carcinoma and Meth-A tumor in mice, and shows low acute toxicity. The target is plasma membrane.
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PMID:[Study of new antineoplastic antibiotics based on newly discovered action mechanisms]. 619 73

The dopamine analog 3,4-dihydroxybenzylamine (3,4-DHBA), a novel antitumor agent, was shown to inhibit directly DNA polymerase in cells of the deeply pigmented murine melanoma, S-91A, permeabilized to nucleotides by lysolecithin. In contrast, levodopa and dopamine did not inhibit DNA polymerase in permeabilized cells in the absence of exogenous tyrosinase. Analysis using isolated DNA polymerase showed that the inhibitory activity of the ortho dihydroxy compounds was totally dependent upon enzymatic activation. The enzymatic activation of the ortho derivative 3,4-DHBA by tyrosinase results in two reactive species: a semiquinone intermediate and a less reactive quinone. Inhibition of DNA polymerase by activated 3,4-DHBA was shown by dialysis and kinetic studies to involve an irreversible reaction which occurs at two inhibitor interaction sites as determined by a Hill plot analysis. Double-stranded DNA protected the enzyme from inhibition by 3,4-DHBA, suggesting that the inhibitory sites are at or near the template-initiator binding site.
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PMID:3,4-Dihydroxybenzylamine: an improved dopamine analog cytotoxic for melanoma cells in part through oxidation products inhibitory to dna polymerase. 640 86

Ascorbate-Cu2+ shows considerable cytotoxicity for human melanoma cells at a dose which has very little effect on human fibroblasts. Ascorbate itself inhibits DNA synthesis in melanoma cells but does not fragment the parental DNA. However, the combined action of ascorbate-Cu2+ generates fragmentation of the parental DNA due to the induction of alkali-labile bonds in the DNA. In contrast, if DNA polymerase alpha is inhibited by aphidicolin prior to treatment with ascorbate-Cu2+ one cannot detect the fragmentation of the DNA. The generated fragments show a discrete appearance in agarose gel electrophoresis with a single-stranded size of approximately 5 kb. When fibroblasts were analyzed using the same experimental protocol it was not possible to detect the fragmentation of the DNA.
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PMID:Ascorbate-Cu2+ fragments melanoma DNA but not fibroblast DNA into a discrete DNA population. 640 86

DNA replication intermediates in human melanoma cells have been investigated by using the drug aphidicolin, which inhibits DNA polymerase alpha. In untreated cells, Okazaki fragments and 10-kilobase (kb) DNA intermediates are formed. In aphidicolin-treated cells, the replication fork is stopped and there is no formation of DNA replication intermediates. However, 10-kb DNA intermediates formed before the drug blockade are ligated to high molecular weight DNA whereas already formed Okazaki fragments accumulate in the cell. Moreover, in cells released from aphidicolin inhibition there is preferential labeling of 10-kb DNA compared to Okazaki fragments. The 10-kb DNA and the Okazaki fragments, therefore, respond differently to aphidicolin.
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PMID:Aphidicolin inhibits the synthesis and joining of short DNA fragments but not the union of 10-kilobase DNA replication intermediates. 640 40

Metastatic tumor burden in the lung of C57BL/6 or BDF1 mice was quantitated by measuring DNA polymerase alpha activity in the lung of tumor-bearing animals. DNA polymerase activity in the lung increased time-dependently following the inoculation of Lewis lung carcinoma (s.c.) or B16 melanoma variant B16-B2 (i.v.). In the Lewis lung carcinoma system, the number of metastatic modules and the weight of lung also increased time-dependently. Results from the B16 melanoma showed that the increase in lung nodules occurred 10 to 20 days after i.v. inoculation of tumor cells. DNA polymerase activity increased significantly during this period. Because the lung nodules were very small there was no obvious concomitant increase in lung weight. Since no significant infiltration of host cells was observed in the lung in response to metastatic foci, the rise in DNA polymerase activity should be due to tumor cells and not to infiltrating host cells. When the metastasis of Lewis lung carcinoma was inhibited by adriamycin and cyclophosphamide, decrease in DNA polymerase activity in the lung occurred. These results indicate that the degree of tumor metastasis can be quantitated by measuring DNA polymerase activity.
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PMID:Quantitative estimation of tumor metastasis by measurement of DNA polymerase activity. 654 83

L-glutamic acid, gamma-(p-hydroxyanilide), is a naturally occurring metabolic inhibitor found in mushrooms and shown to be active against B-16 melanoma in vivo. We have prepared and evaluated 2 analogs, the 3,4- and 2,5-dihydroxy derivatives, since these might represent more immediate precursors to the putative biologically active quinone. Both dihydroxy derivatives were more toxic than the parent phenol. The 2,5-dihydroxy derivative was significantly more cytotoxic with a 5-fold decrease in IC50 for both human and B-16 melanoma cells in vitro. In the presence of mushroom tyrosinase, both derivatives were potent inhibitors of isolated DNA polymerase with essentially complete inhibition occurring at concentrations of 10(-5) M. The 3,4-dihydroxy derivative exerted inhibitory effects primarily upon thymidine incorporation into melanoma cells in vitro while the 2,5-dihydroxy derivative also inhibited uridine and leucine incorporation. There was no significant antitumor activity observed in the B-16 system, a fact which might be attributed to the increased toxicity of the compounds.
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PMID:Antitumor effects of L-glutamic acid dihydroxyanilides against experimental melanoma. 676 71


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