EC:2.7.7.7 - FACTA Search

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)

Rat liver cells in vitro were transformed with chicken sarcoma virus B77, giving RL(B77) cells, and with murine sarcoma virus (Harvey), giving RL(MSV) cells. Rat liver cells transformed spontaneously in vitro were designated RL cells. In addition, the RL(MSV) cell line was adapted for growth in culture fluid containing 25 mug of 5-bromodeoxyuridine per ml. All cell lines were tumorigenic in 1-wk-old rats. The number of cells needed for induction of tumor growth was 1,000-fold higher in the case of RL(B77) cells in comparison with RL(MSV) cells and RL cells. No production of viral particles from any of the cell lines investigated was detected by plating concentrated supernatant fluid of the cultures on different secondary embryo cells with and without fusion by Sendai virus, by labeling with uridine-5-(3)H, or by assay for deoxyribonucleic acid polymerase activity. The viral genome was rescued by fusion of RL(B77) cells with chicken cells. Chicken sarcoma virus rescued from (RL(B77) cells differed in plating efficiency on duck cells from B77 virus rescued from transformed rat embryo cells. No virus was rescued after fusion of RL(MSV) and RL cells with mouse, rat, or chicken embryo cells. Infectious murine sarcoma virus can be induced by 5-bromodeoxyuridine from RL(MSV) cells.
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PMID:Transformation of rat liver cells with chicken sarcoma virus B77 and murine sarcoma virus. 434 22

The effect of zinc on the growth of a transplantable DAB hepatoma in young male Wistar rats was determined. Both a zinc deficiency (less than 0.5 microgram/g feed) as well as high levels of dietary zinc (500 micrograms/g feed) significantly reduced tumor growth. Both high- and low-zinc diets resulted in reduced activity of the salvage pathway of thymidine synthesis as well as reduced 32PO4 incorporation into DNA and diminished DNA polymerase activity. Blockage of the de novo pathway of DNA synthesis by the folate antagonist methotrexate (MTX) resulted in greatly increased flux through the thymidine salvage pathway and increased DNA polymerase activity but decreased 32PO4 incorporation in the transplantable hepatomas in Wistar rats fed normal zinc diets (50 micrograms/g feed). MTX had the effect of reducing all these activities in the groups fed low- and high-zinc diets. These data suggested a site of action of zinc associated with the salvage pathway of thymidine synthesis.
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PMID:Possible site of zinc control of hepatoma cell division in Wistar rats. 657 40

We studied the growth capabilities of mammary tumor 13762 transplanted into inbred F344 rats previously cured of tumors by cell kinetically based sequential chemotherapy. Of the 18 challenge tumors, 4 were completely rejected, and nonrejected tumors grew at subnormal rates. The subnormal growth was specific for the cured rats because tumor growth in age- and therapy-matched non-tumor-bearing controls was normal. Cell kinetic studies with the use of in vitro techniques for the [3H]dThd labeling index, DNA synthesis time, and primer-dependent DNA polymerase labeling index (an in vitro estimate of growth fraction) indicated that the subnormal growth rates of the 13762 tumor in cured rats were due to subnormal tumor cell production. Cell loss rates were similar in tumors growing in cured rats and in size-matched tumors growing in normal controls. The results are consistent with the possibility that the subnormal growth of 13762 challenge tumors in chemotherapeutically cured F344 rats was mediated by immune factors.
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PMID:Growth kinetics of mammary tumor 13762 in rats previously cured by chemotherapy. 692 50

A retroviral vector containing the wild-type p53 gene under control of a beta-actin promoter was produced to mediate transfer of wild-type p53 into human non-small cell lung cancers by direct injection. Nine patients whose conventional treatments failed were entered into the study. No clinically significant vector-related toxic effects were noted up to five months after treatment. In situ hybridization and DNA polymerase chain reaction showed vector-p53 sequences in posttreatment biopsies. Apoptosis (programmed cell death) was more frequent in posttreatment biopsies than in pretreatment biopsies. Tumor regression was noted in three patients, and tumor growth stabilized in three other patients.
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PMID:Retrovirus-mediated wild-type p53 gene transfer to tumors of patients with lung cancer. 878 51

The influence of 14 acyclonucleosides, derivatives of adenine, guanine, uracil and thymine on the phosphorylation of dAdo, dGuo, dCyd and dThd occurring in the cytosol of growing amelanotic melanoma transplanted to Syrian hamsters, as well as on inhibition of tumor growth were studied. From among the studied ACNs eight were tested earlier (Modrzejewska et al., 1996, The influence of alkoxymethyl purine and pyrimidine acyclonucleosides on growth inhibition of Kirkman-Robbins hepatoma and possible mechanism of their cytostatic activity, Z. Naturforch. 51c, 75-80); from among the newly synthesized ACNs, 1,3-N,N-diallyloxymethylthymine (AMT2), 1-N-allyloxymethyl-5,6-tetramethyleneuracil (AMUTM), and tested previously 1-N-allyloxymethylthymine (AMT1), administered i.p. in a dose of 0.2 mmol/kg body weight reduce the tumor mass from 0.98 g to 0.64 g +/- 0.11 g (i.e. 35% +/- 12%). 48 hours after i.p. administration of the mentioned ACNs in the same dose a reduction of tumor mass is accompanied by the inhibition of dAMP, dGMP and dTMP synthesis. AMT1 inhibits dThd phosphorylation from 6.2 to 4.22; AMT2 suppresses dAdo, dGuo and dThd phosphorylation by, correspondingly, from 2.8 to 1.7, from 10.8 to 7.5 and from 6.2 to 4.2; AMUTM depresses dAMP synthesis from 2.8 to 1.6 (all data: mumol of 2'dNMP formed per mg of protein per min. x 10(-4)). None of the 14 studied acyclonucleosides influences dCMP synthesis. In vivo, after hydration of allyloxymethyl group to hydroxypropoxymethyl residue (having -CH2OH group), AMT1, AMT2 and AMUTM undergo phosphorylation to corresponding triphosphates. Phosphorylated ACNs are not incorporated into tumor DNA, however they inhibit dAdo, dGuo and dThd incorporation into DNA. It is concluded that ACN triphosphates are not substrates for DNA polymerase but, competing with dATP dGTP and dTTP, inhibit incorporation of these 2'dNTP into DNA and, in consequence, reduce tumor growth, which is presumed to be the main mechanism of cytostatic activity of the studied ACNs.
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PMID:Further studies on cytostatic activity of alkoxymethyl purine and pyrimidine acyclonucleosides. 1062 91

Doxorubicin, a very potent and often used anti-cancer drug, has a wide spectrum of biological activity. Classic studies have demonstrated that doxorubicin and other members of the anthracycline family intercalate with DNA and partially uncoil the double-stranded helix. Doxorubicin has a high affinity for cell nuclei: as much as 60% of the total intracellular amount of doxorubicin is found in the nucleus. Once binding to DNA occurs, several consequences may ensue. The binding of anthracyclines to DNA inhibits DNA polymerase and nucleic acid synthesis. In addition, anthracyclines are known to stabilize the otherwise cleavable complex between DNA and homodimeric topoisomerase II enzyme subunits, resulting in the formation of protein-linked DNA double strand breaks. In tumor cells, these anthracycline-induced perturbations are believed to result in a final common pathway of endonucleolytic DNA fragmentation known as apoptosis. Because proliferation is an important determinant of tumor growth, interference with the genome is regarded as the primary cause of the anti-tumor action of doxorubicin. Intercalation with DNA may not be important in the cardiotoxicity associated with doxorubicin therapy (see next section), because cardiac cell proliferation in humans stops after 2 months of age. This review is focussed on the effects of doxorubicin on mechanical performance in skinned cardiac trabeculae after acute and chronic administration of doxorubicin. We look especially at the mechanical performance and the molecular changes observed and related to mechanical performance.
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PMID:Doxorubicin and mechanical performance of cardiac trabeculae after acute and chronic treatment: a review. 1124 45

Nasopharyngeal carcinoma (NPC) is universally associated with EBV infection. We have shown that the phosphonated nucleoside analog, (S)-1-[3-hydroxy-2-(phosphonylmethoxy)-propyl]cytosine (HPMPC) strongly inhibits growth of NPC xenografts in nude mice by causing apoptosis (J. Neyts et al., Cancer Res., 58, 384-388, 1998). We, therefore, tested two additional members of this drug family that have different degrees of antiviral activity, 9-[2-(phosphonomethoxy)ethyl]adenine (PMEA) and 9-2-(R)-(phosphonomethoxy)propyladenine (PMPA). Intratumoral injection of PMEA (75 microl of 2% solution) in C15 NPC xenografts, which are latently infected with EBV, slowed tumor growth moderately, whereas PMPA (75 microl of 2% solution) slowed tumor growth only marginally. Compared with the previous results showing complete regression of tumor, PMEA had less antitumoral effect than HPMPC, and PMPA had the least. After 4 weeks of preventive treatment, tumors formed in 12.5, 50, and 100% of mice treated with HPMPC, PMEA, and PMPA, respectively, in contrast to the development of tumors in all of the PBS-treated control mice. We also investigated the effect of each drug on the EBV-positive epithelial cell line NPC-KT in vitro. 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay showed inhibition of growth of NPC-KT cells by HPMPC and PMEA, but not by PMPA, which correlates with the results observed in tumor xenografts. Growth inhibition was attributable to induction of apoptosis in NPC-KT cells as indicated by a DNA fragmentation assay. Cleavage of poly(ADP-ribose) polymerase after treatment of NPC-KT cells with HPMPC was observed, which suggested that the apoptosis may be mediated by caspase(s). The apoptotic effects of the drugs are independent of any effects on EBV DNA polymerase, which is not expressed in these latently infected NPCs. These results suggest that HPMPC as well as PMEA could provide an adjunctive treatment for NPC.
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PMID:Prevention and inhibition of nasopharyngeal carcinoma growth by antiviral phosphonated nucleoside analogs. 1169 6

Nucleoside phosphonates are widely used therapeutic agents with a broad spectrum of antiviral activity. However, only a few of them are reported to have antitumor activity. In this study, we show that a tetrahydrofuran phosphonate analogue of guanosine, (-)-2-R-dihydroxyphosphinoyl-5-(S)-(guanin-9'-ylmethyl) tetrahydrofuran (BCH-1868), previously reported as having antiviral activity, also displays antitumor activity. In vitro, BCH-1868 inhibited the proliferation of several murine and human cancer cell lines with IC50s in the microM range independently of the tissue type or the presence of multidrug resistance protein MRP/gp190. In vivo, BCH-1868 was active against a variety of human tumor xenograft models (Caki-1, HT-29, DU 145, COLO 205, and CCRF-CEM). In all tumors tested, a significant tumor growth inhibition was noted at 40-50 mg/kg (daily x 5), but no tumor regression was observed in the settings used. To better understand these results, we partially characterized, at the cellular level, the mechanism of action of this new cyclic nucleoside phosphonate and investigated its pharmacokinetic characteristics in mice. We showed that BCH-1868 exerts its antitumor activity by an inhibitory mechanism at the level of DNA polymerase a, resulting in arrest of DNA synthesis and a block of cell division at the S phase of the cell cycle. Low-circulating plasma concentration (Cmax = 87 microM; area under the curve = 1138 micromol x min/liters; after a bolus i.v. injection of 10 mg/kg) and rapid clearance of the drug (terminal half-life, t1/2 = 16 min) may contribute to the modest antitumor efficacy observed in vivo.
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PMID:BCH-1868 [(-)-2-R-dihydroxyphosphinoyl-5-(S)-(guanin-9'-yl-methyl) tetrahydrofuran]: a cyclic nucleoside phosphonate with antitumor activity. 1247 70

Telomeres are primarily controlled by a highly specialized DNA polymerase, termed telomerase. In early studies, high levels of telomerase activity were detected in cancer cells, but no activity was found in most normal somatic cells, leading to the speculation that telomerase might be required for tumor growth. Recent studies have demonstrated that introduction of the telomerase catalytic component (TERT) into telomerase- negative cells activates telomerase and extends cell lifespan, whereas mice lacking telomerase activity revealed impaired cell proliferation in some organs as well as reduced tumorigenesis. These findings suggest that telomerase plays an important role in long-term cell viability and cell proliferation. We have recently demonstrated a crucial role of telomerase activation in the regulation of vascular smooth muscle cell (VSMC) proliferation and clarified the mechanisms by which telomerase is activated in the process of VSMC growth. Moreover, increasing evidence suggests that telomerase activity contributes to the vascular pathophysiology. Thus, further understanding of the role of telomerase and telomere function would provide new insights into the treatment of human vascular disorders.
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PMID:The role of telomerase activation in the regulation of vascular smooth muscle cell proliferation. 1294 50

The first occupation-associated cancers to be recognized were the sooty warts (cancers of the scrotum) suffered by chimney sweeps in 18th century England. In the 19th century, high incidences of skin cancers were noted among fuel industry workers. By the early 20th century, malignant skin tumors were produced in laboratory animals by repeatedly painting them with coal tar. The culprit in coal tar that induces cancer was finally isolated in 1933 and determined to be benzo[a]pyrene (BP), a polycyclic aromatic hydrocarbon. A residue of fuel and tobacco combustion and frequently ingested by humans, BP is metabolized in mammals to benzo[a]pyrene diol epoxide (BPDE), which forms covalent DNA adducts and induces tumor growth. In the 70 yr since its isolation, BP has been the most studied carcinogen. Yet, there has been no crystal structure of a BPDE DNA adduct. We report here the crystal structure of a BPDE-adenine adduct base-paired with thymine at a template-primer junction and complexed with the lesion-bypass DNA polymerase Dpo4 and an incoming nucleotide. Two conformations of the BPDE, one intercalated between base pairs and another solvent-exposed in the major groove, are observed. The latter conformation, which can be stabilized by organic solvents that reduce the dielectric constant, seems more favorable for DNA replication by Dpo4. These structures also suggest a mechanism by which mutations are generated during replication of DNA containing BPDE adducts.
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PMID:Crystal structure of a benzo[a]pyrene diol epoxide adduct in a ternary complex with a DNA polymerase. 1498 98

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