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: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tumor cell resistance to certain chemotherapeutic agents may result in cross-resistance to related antineoplastic agents. To study cross-resistance among inhibitors of ribonucleotide reductase, we developed hydroxyurea-resistant (HU-R) CCRF-CEM cells. These cells were 6-fold more resistant to hydroxyurea than the parent hydroxyurea-sensitive (HU-S) cell line and displayed an increase in the mRNA and protein of the R2 subunit of ribonucleotide reductase. We examined whether HU-R cells were cross-resistant to gemcitabine, a drug that blocks cell proliferation by inhibiting ribonucleotide reductase and incorporating itself into DNA. Contrary to our expectation, HU-R cells had an increased sensitivity to gemcitabine. The IC50 of gemcitabine was 0.061 +/- 0.03 microM for HU-R cells versus 0.16 +/- 0.02 microM for HU-S cells (P = 0.005). The cellular uptake of [3H]gemcitabine and its incorporation into DNA were increased in HU-R cells. Over an 18-h incubation with radiolabeled gemcitabine (0.25 microM), gemcitabine uptake was 286 +/- 37.3 fmol/10(6) cells for HU-R cells and 128 +/- 8.8 fmol/10(6) cells for HU-S cells (P = 0.03). The incorporation of gemcitabine into DNA was 75 +/- 6.7 fmol/10(6) cells for HU-R cells versus 22 +/- 0.6 fmol/10(6) cells for HU-S cells (P < 0.02). Our studies suggest that the increased sensitivity of HU-R cells to gemcitabine results from increased drug uptake by these cells. This, in turn, favors the incorporation of gemcitabine into DNA, resulting in enhanced cytotoxicity. The increased sensitivity of malignant cells to gemcitabine after the development of hydroxyurea resistance may be relevant to the design of chemotherapeutic trials with these drugs.
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PMID:Increased sensitivity of hydroxyurea-resistant leukemic cells to gemcitabine. 1003 95

RMP-7, a bradykinin analog, has been shown to selectively open the blood-tumor barrier for the delivery of chemotherapeutic drugs to brain tumors. In contrast to bradykinin, RMP-7 has no hypotensive effects and has been approved for human use. This study was initiated to determine whether RMP-7 would open the blood-tumor barrier to virus vectors encoding tumor-killing genes in an experimental model. The herpes virus vector used, hrR3, which encodes virus thymidine kinase gene and the lacZ reporter gene, is defective in a gene encoding ribonucleotide reductase, replicates selectively in dividing tumor cells and not in postmitotic neural cells. It was determined that an optimum dose of RMP-7 (1.5-3.0 microg/kg over 10-15 minutes) enhanced viral delivery to brain tumors in rats bearing intracranial 9 L gliosarcomas when infused through the carotid artery immediately prior to virus vector application. Maximum expression of the lacZ reporter gene occurred at 3 days after intracarotid infusion. By 8 days, transgene expression was largely confined to tumor foci away from the main tumor mass. Viral delivery was essentially specific to tumor cells, with little transgene expression elsewhere in the brain. Minimal uptake and pathology was noted in the kidney, spleen, and liver. These findings indicate that intracarotid delivery of RMP-7 can augment the selective delivery of virus vectors to brain tumors in an experimental rat model, with the potential for application to human brain tumors.
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PMID:Selective delivery of herpes virus vectors to experimental brain tumors using RMP-7. 1007 59

The deoxyadenosine-resistant mouse leukemia L1210 cell line (Y8) has previously been shown to have phenotypic differences that appear unrelated to the altered properties observed at the level of ribonucleotide reductase (RR). In response to various stress factors, the parental wild-type (WT) L1210 cell line undergoes cell cycle arrest; Y8 cells become apoptotic. These responses are p53-independent. Cell cycle regulation also appears different between the two cell lines, suggesting that Y8 cells are more apoptotic because of alterations in their cell cycle compared to WT cells. In order to study the relationships between cell cycle regulation and apoptosis, the effects of 2-aminopurine (2-AP), wortmannin, and PD98059, were studied on WT and Y8 cells. 2-AP induced G2/M block in both WT and Y8 cells with differences in G0/G1 and S phase contents between the two cell lines. Wortmannin induced G0/G1 block in Y8 cells, while exhibiting no effect on WT cells. PD98059 had no effect on the cell cycle of either WT or Y8 cells. In response to each inhibitor, Y8 cells underwent apoptosis to a much greater extent than the parental WT cell line. These data suggest that the specific pathways that converge on the cell cycle are altered and may be involved in the differences between a tumor cell to block in cell cycle or to undergo apoptosis.
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PMID:Altered sensitivity of deoxyadenosine-resistant mouse leukemia L1210 cells to various kinase inhibitors. 1036 49

The lung is a very common site for primary cancer and metastatic disease. Advances in tumor biology have provided insight into the sequence of genetic alterations leading to tumor and metastasis formation in the lung. In this review we address two genetic alterations, the dominant ras oncogene and the p53 tumor suppressor gene, which are commonly found in lung cancer and pulmonary metastases. We discuss their specific roles in tumor development, invasion, metastasis formation, and their potential prognostic utility. In addition, we will discuss the concept of a novel modulator gene, ribonucleotide reductase, and review its role in the control of metastasis formation.
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PMID:Molecular genetic analysis of primary lung cancer and cancer metastatic to the lung. 1036 61

Transformed cells are characterized by imbalances in metabolic routes. In particular, different key enzymes of nucleotide metabolism and DNA biosynthesis, such as CTP synthetase, thymidylate synthase, dihydrofolate reductase, IMP dehydrogenase, ribonucleotide reductase, DNA polymerase, and DNA methyltransferase, are markedly up-regulated in certain tumor cells. Together with the concomitant down-modulation of the purine and pyrimidine degradation enzymes, the increased anabolic propensity supports the excessive proliferation of transformed cells. However, many types of cancer cells have maintained the ability to differentiate terminally into mature, non-proliferating cells not only in response to physiological receptor ligands, such as retinoic acid, vitamin D metabolites, and cytokines, but also following exposure to a wide variety of non-physiological agents such as antimetabolites. Interestingly, induction of tumor cell differentiation is often associated with reversal of the transformation-related enzyme deregulations. An important class of differentiating compounds comprises the antimetabolites of purine and pyrimidine nucleotide metabolism and nucleic acid synthesis, the majority being structural analogs of natural nucleosides. The CTP synthetase inhibitors cyclopentenylcytosine and 3-deazauridine, the thymidylate synthase inhibitor 5-fluoro-2'-deoxyuridine, the dihydrofolate reductase inhibitor methotrexate, the IMP dehydrogenase inhibitors tiazofurin, ribavirin, 5-ethynyl-1-beta-D-ribofuranosylimidazole-4-carboxamide (EICAR) and mycophenolic acid, the ribonucleotide reductase inhibitors hydroxyurea and deferoxamine, and the DNA polymerase inhibitors ara-C, 9-(2-phosphonylmethoxyethyl)adenine (PMEA), and aphidicolin, as well as several nucleoside analogs perturbing the DNA methylation pattern, have been found to induce tumor cell differentiation through impairment of DNA synthesis and/or function. Thus, by selectively targeting those anabolic enzymes that contribute to the neoplastic behavior of cancer cells, the normal cellular differentiation program may be reactivated and the malignant phenotype suppressed.
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PMID:Role of antimetabolites of purine and pyrimidine nucleotide metabolism in tumor cell differentiation. 1041 91

The diphosphates of a series of 2'-O-allyl-1-beta-D-arabinofuranosyl derivatives, previously obtained by us, have been prepared and tested for their inhibitory activity in an in vitro assay using R1 and R2 subunits of the purified recombinant mouse ribonucleotide reductase (RNR). 2'-O-Allyl-araU diphosphate proved to be inhibitory, with an IC50 of 100 microM. The 5'-phosphoramidate pronucleotide of 2'-O-allyl-araU was also prepared and tested for inhibition of tumor cell proliferation.
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PMID:Synthesis, cytostatic activity and inhibition of ribonucleotide reductase by 5'-phosphoramidates and 5'-diphosphates, of 2'-O-allyl-arabinofuranosyl nucleosides. 1043 32

LOH11A is a region of Chromosome (Chr) 11p15.5 where 75% of lung cancers show loss of heterozygosity (LOH). Clinical and cell biological studies suggest that LOH11A contains a tumor/metastasis suppressor gene. We have mapped this region (650 kb) using overlapping genomic P1/PAC/BAC clones, and one of the genes that we have identified is RRM1. This gene encodes the large subunit (M1) of ribonucleotide reductase, the heterodimeric enzyme that catalyzes the rate-limiting step in deoxyribonucleotide synthesis. By comparing our genomic sequences with the previously published cDNA, we have found that the human gene is composed of 19 exons. It is oriented telomere to centromere and is Alu rich. In order to verify that RRM1 maps within the boundaries of LOH11A, we assessed the frequency of LOH at a SacI polymorphism within intron IX of the gene. We observed LOH in 48% (15/31) of informative lung tumor specimens. To determine whether RRM1 was mutated in tumors, SSCP analysis of the 19 RRM1 exons was performed. No mutations were revealed in 12 pairs of normal and tumor DNA samples. Immunoblots on protein extracts from normal/tumor pairs indicated that a protein of the expected size was present in both. Our conclusion is that RRM1 lies within the LOH11A region, but that its exons are not mutated in tumors. The potential for RRM1 to act as a tumor suppressor is discussed.
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PMID:Lung cancer and the human gene for ribonucleotide reductase subunit M1 (RRM1). 1044 45

Continuing our studies on ribonucleotide reductase (RNR) mechanism-based inhibitors, we have now prepared the diphosphates (DP) of 2'-O-allyl-1-beta-D-arabinofuranosyl-uracil and -cytosine and 2'-O-allyl-9-beta-D-arabinofuranosyl-adenine and evaluated their inhibitory activity against recombinant murine RNR. 2'-O-Allyl-araUDP proved to be inhibitory to RNR at an IC(50) of 100 microM, whereas 2'-O-allyl-araCDP was only marginally active (IC(50) 1 mM) and 2'-O-allyl-araADP was completely inactive. The susceptibility of the parent nucleosides to phosphorylation by thymidine kinase and 2'-deoxycytidine kinase was also investigated, and all nucleosides proved to be poor substrates for the above-cited kinases. Moreover, prodrugs of 2'-O-allyl-araU and -araC monophosphates, namely 2'-O-allyl-5'-(phenylethoxy-L-alanyl phosphate)-araU and -araC, were prepared and tested against tumor cell proliferation but proved to be inactive. A molecular modeling study has been conducted in order to explain our results. The data confirm that for both the natural and analogue nucleoside diphosphates, the principal determinant interaction with the active site of RNR is with the diphosphate group, which forms strong hydrogen bonds with Glu623, Thr624, Ser625, and Thr209. Our findings indicate that the poor phosphorylation may represent an explanation for the lack of marked in vitro cytostatic activity of the test compounds.
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PMID:5'-Phosphoramidates and 5'-diphosphates of 2'-O-allyl-beta-D-arabinofuranosyluracil, -cytosine, and -adenine: inhibition of ribonucleotide reductase. 1046 11

The combination of cyclophosphamide (CPA) and 5-fluorouracil (5-FU) is currently regarded as the most effective therapy for the treatment of patients with advanced and recurrent breast cancer. We evaluated the augmentation of antitumor activity and toxicity by coadministration of CPA and UFT (1M tegafur--4M uracil) instead of intravenous 5-FU on H-31 human breast cancer xenografts in nude mice. The maximum tolerable dose (MTD) of UFT alone (24 mg/kg) and CPA alone (85 mg/kg) had a significant effect on H-31 tumors in mice with 86.6% and 83.0% inhibition rates of tumor growth, respectively, and without loss of body weight, diarrhea or myelosuppression. The combined administration with full and 83.3% MTD of UFT and CPA augmented the antitumor activity compared to that of UFT alone and CPA alone. The relative tumor volume of the UFT plus CPA-treated group to the UFT- and CPA-treated groups was 0.28 and 0.36 for the full MTD, and 0.51 and 0.67 for 83.3% MTD, respectively. When CPA was consecutively administered to the tumor-bearing mice for 14 days, there were no decreases in the activities of enzymes related to 5-FU metabolism, but there was an significant increase in the activity of ribonucleotide reductase, suggesting that anabolism of 5-FU derived from tegafur is accelerated to some extent by coadministration of CPA. In conclusion, these results suggest that combination therapy with oral UFT and CPA may be useful for the long-term treatment of cancer patients with advanced and recurrent breast cancers.
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PMID:Antitumor efficacy of combination chemotherapy with UFT and cyclophosphamide against human breast cancer xenografts in nude mice. 1047 Jan 17

Viruses used for gene therapy are usually genetically modified to deliver therapeutic transgenes and prevent viral replication. In contrast, replication-competent viruses may be used for cancer therapy because replication of some viruses within cancer cells can result in their destruction (oncolysis). Viral ribonucleotide reductase expression is defective in the HSV1 mutant hrR3. Cellular ribonucleotide reductase, which is scarce in normal liver and abundant in liver metastases, can substitute for its viral counterpart to allow hrR3 replication in infected cells. Two or three log orders more of hrR3 virions are produced from infection of colon carcinoma cells than from infection of normal hepatocytes in viral replication assays. This viral replication is oncolytic. A single intravascular administration of hrR3 into immune-competent mice bearing diffuse liver metastases dramatically reduces tumor burden. hrR3-mediated tumor inhibition is equivalent in immune-competent and immune-incompetent mice, suggesting that viral oncolysis and not the host immune response is the primary mechanism of tumor destruction. HSV1-mediated oncolysis of diffuse liver metastases is effective in mice preimmunized against HSV1. These results indicate that replication-competent HSV1 mutants hold significant promise as cancer therapeutic agents. Yoon, S. S., Nakamura, H., Carroll, N. M., Bode, B. P., Chiocca, E. A., Tanabe, K. K. An oncolytic herpes simplex virus type 1 selectively destroys diffuse liver metastases from colon carcinoma.
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PMID:An oncolytic herpes simplex virus type 1 selectively destroys diffuse liver metastases from colon carcinoma. 1065 86


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