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)

Thyroid hormone induces differentiation of many different tissues in mammals, birds, and amphibians. The different tissues all differentiate from proliferating precursor cells, and the normal cell cycle is suspended while cells undergo differentiation. We have investigated how thyroid hormone affects the expression of the E2F-1 protein, a key transcription factor that controls G1- to S-phase transition. We show that during thyroid hormone-induced differentiation of embryonic carcinoma cells and of oligodendrocyte precursor cells, the levels of E2F-1 mRNA and E2F-1 protein decrease. This is caused by the thyroid hormone receptor (TR) regulating the transcription of the E2F-1 gene. The TR binds directly to a negative thyroid hormone response element, called the Z-element, in the E2F-1 promoter. When bound, the TR activates transcription in the absence of ligand but represses transcription in the presence of ligand. In addition, liganded TR represses transcription of the S-phase-specific DNA polymerase alpha, thymidine kinase, and dihydropholate reductase genes. These results suggest that thyroid hormone-induced withdrawal from the cell cycle takes place through the repression of S-phase genes. We suggest that this is an initial and crucial step in thyroid hormone-induced differentiation of precursor cells.
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PMID:Hormone-dependent repression of the E2F-1 gene by thyroid hormone receptors. 1251 8

Clofarabine [Clofarex] is a purine nucleoside in development with Bio-envision, the Southern Research Institute and ILEX Oncology as an anticancer agent. Clofarabine's nucleoside structure is such that both the purine and ribose rings are halogenated, which allows it to inhibit DNA synthesis at two critical junctures: DNA polymerase I and RNA reductase. An intravenous infusion and an oral formulation are undergoing clinical development. Clofarabine was originated by the Southern Research Institute. In August 1998 Bioenvision signed a co-development agreement with the Southern Research Institute, under which it obtained the right to manufacture, market and distribute clofarabine worldwide, except Japan and Southeast Asia. In addition, the company appears to have licensed rights from the Institute that cover the development and marketing of other purine nucleoside analogues that have relevance in the treatment of leukaemia and lymphoma. Bioenvision will pay royalties to the Southern Research Institute for sales of clofarabine. Bioenvision extended its option in May 2004 to manufacture, market and distribute clofarabine in Japan and Southeast Asia, and is seeking a co-marketing partner to convert the option into a license agreement following the terms agreed upon between Bioenvision and the Southern Research Institute. Bioenvision and ILEX Products (a wholly owned subsidiary of ILEX Oncology) signed an agreement in February 2004 that converted ILEX's option (agreed in March 2001) to market and distribute clofarabine in the US and Canada. As part of the deal, Bioenvision received a $US3.5 million payment from ILEX in December 2003. In March 2004, Genzyme Corporation announced that it had signed a merger agreement with ILEX Oncology under which ILEX shareholders will receive shares of Genzyme common stock valued at approximately $US1 billion in equity value. Genzyme's business combination with ILEX is expected to be completed by the middle of 2004, Genzyme will, therefore, acquire a considerable boost to its product portfolio. Bioenvision obtained the exclusive option from the Southern Research Institute in September 2003 to manufacture, market and distribute clofarabine in Japan and Southeast Asia. Bioenvision stated it was actively seeking a co-marketing partner to convert this option into a license. Bioenvision announced in June 2003 that it had formed two separate agreements with Ferro Pfanstiehl Laboratories. The agreements cover worldwide development and supply of clofarabine, excluding the US and Canada. Ferro Pfanstiehl has more than 25 years of experience in potent compound manufacturing. The US FDA granted clofarabine fast-track designation for the treatment of refractory or relapsed acute lymphoblastic leukaemia in children in September 2003. Clofarabine has also been granted orphan drug status by the US FDA for the treatment of adult and paediatric patients with acute lymphocytic leukaemia (ALL) or acute myeloid leukaemia (AML). In December 2001, clofarabine was granted orphan drug status in the EU for the treatment of adult and paediatric patients with ALL. A single-agent phase II study has been completed in patients with acute leukaemia and myelodysplastic syndromes. Results of a phase II study of clofarabine in the treatment of acute myelogenous leukaemia in older adults who are not considered suitable for intensive chemotherapy have been very positive, with a 64% response rate in these patients being reported. In May 2004, Bioenvision announced that it had decided to stop enrollment at 25 evaluable patients (initially anticipated to be approximately 37 patients) because of the encouraging interim results. It said the trial would conclude earlier than expected and be completed by the end of June 2004. The pivotal trial will enroll approximately 65 patients with AML considered unsuitable for intensive chemotherapy. Bioenvision currently has phase II trials ongoing in adult and paediatric patients with acute leukaemia and chronic lymphocytic leukaemia (CLL). In addition, Bioenvision-sponsored phase I/II clinical trials of clofarabine in patients with CLL and non-Hodgkin's lymphoma are underway in Europe. In July 2002, ILEX began two US multicentre, open-label, phase II trials in children with relapsed or refractory AML or ALL. Children enrolled in the studies receive an intravenous infusion of clofarabine over 2 hours for five consecutive days every 2-6 weeks. In June 2003, at the 39th Annual Meeting of the American Society of Clinical Oncology (ASCO-2003), an overall response rate of 28% was reported for clofarabine therapy in heavily pretreated children with acute leukaemia. In September 2003, a multicentre European phase II trial (BIOV-111) was initiated in children with relapsed/refractory ALL. In December 2003, the first of 65 patients received treatment. As part of the global development programme, Bioenvision and ILEX are also conducting a phase II study in adult patients with AML. The companies are planning to investigate the potential use of clofarabine in combination with DNA-damaging agents, because clofarabine has been shown to inhibit DNA repair and may, therefore, potentiate the effects of DNA damaging drugs. A phase I/II trial of clofarabine in combination with cytarabine (Ara-C) in adult patients with first relapse AML, ALL, CML blast crisis and myelodysplastic syndrome was initiated at the University of Texas MD Anderson Cancer Centre in October 2002. Clofarabine has completed US phase I trials, and has reported favourable results in patients with leukaemia and solid tumours, including breast, colorectal and prostate cancers. A phase I/II trial in patients with solid tumours was initiated in July 2002. In addition, ILEX said it intended to develop an oral formulation of clofarabine for the treatment of colorectal cancer.
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PMID:Clofarabine. 1523 Jun 27

Novel N-1-sulfonylpyrimidine derivatives have a strong antiproliferative activity and an ability to induce apoptosis in treated tumor cells. The purpose of this study was to elucidate the effects of two N-1-sulfonylpyrimidine nucleobases on catalytic activity of tumor cells' enzymes involved in DNA and RNA synthesis, and in de novo and salvage pyrimidine and purine syntheses. Investigations were performed in vitro on colon carcinoma cells (Caco2). The biosynthetic activity of the tumor cells' enzymes was determined using sensitive radio-assays. Enzyme activity in treated cells was calculated relative to untreated control cells. Both of the investigated compounds, 1-(p-toluenesulfonyl) cytosine (TsC) and 5-bromo-1-(methanesulfonyl) uracil (BMsU) inhibited activities of specific enzymes involved in nucleic acid synthesis. BMsU strongly inhibited activities of DNA polymerase alpha (53%), thymidine kinase (68%), thymidilate synthase (43%), and ribonucleotide reductase (46%). De novo biosynthesis of pyrimidine and purine was reduced by 20%. TsC was able to inhibit RNA polymerase (37%), orotate phosphoribosyltransferase (39%), uridine kinase (44%), ribonucleotid reductase (47%), and de novo purine synthesis (61%). Antitumor activity of 1-(p-toluenesulfonyl) cytosine (TsC) and 5-bromo-1-(methanesulfonyl) uracil (BMsU) is closely associated with their inhibitory activity on enzymes that play an important role in the metabolism of tumor cells.
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PMID:Metabolic effects of novel N-1-sulfonylpyrimidine derivatives on human colon carcinoma cells. 1591 14

Gemcitabine (2',2'-difluoro 2'-deoxycytidine, dFdC) is the most important cytidine analogue developed since cytosine arabinoside (Ara-C). The evidence of its potent antitumor activity in a wide spectrum of in vitro and in vivo tumor models has been successfully confirmed in the clinical setting. Despite structural and pharmacological similarities to Ara-C, gemcitabine displays distinctive features of cellular pharmacology, metabolism and mechanism of action. Following influx through the cell membrane via nucleoside transporters, gemcitabine undergoes complex intracellular conversion to the nucleotides gemcitabine diphosphate (dFdCDP) and triphosphate (dFdCTP) responsible for its cytotoxic actions. The cytotoxic activity of gemcitabine may be the result of several actions on DNA synthesis. dFdCTP competes with deoxycytidine triphosphate (dCTP) as an inhibitor of DNA polymerase. dFdCDP is a potent inhibitor of ribonucleoside reductase, resulting in depletion of deoxyribonucleotide pools necessary for DNA synthesis and, thereby potentiating the effects of dFdCTP. dFdCTP is incorporated into DNA and after the incorporation of one more nucleotide leads to DNA strand termination. This extra nucleotide may be important in hiding the dFdCTP from DNA repair enzymes, as incorporation of dFdCTP into DNA appears to be resistant to the normal mechanisms of DNA repair. Gemcitabine can be effectively inactivated mainly by the action of deoxycytidine deaminase to 2,2'-difluorodeoxyuridine. Also, 5'-nucleotidase opposes the action of nucleoside kinases by catalysing the conversion of nucleotides back to nucleosides. Additional sites of action and self-potentiating effects have been described. Evidence that up- or down-regulation of the multiple membrane transporters, target enzymes, enzymes involved in the metabolism of gemcitabine and alterations in the apoptotic pathways may confer sensitivity/resistance to this drug, has been provided in experimental models and more recently also in the clinical setting. Synergism between gemcitabine and several other antineoplastic agents has been demonstrated in experimental models based on specific pharmacodynamic interactions. Knowledge of gemcitabine cellular pharmacology and its molecular mechanisms of resistance and drug interaction may thus be pivotal to a more rational clinical use of this drug in combination regimens and in tailored therapy.
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PMID:Cellular pharmacology of gemcitabine. 1680 68

In this study, proteomes of two pathogenic Leptospira spp., namely L. interrogans, serogroup Icterohaemorrhagiae, serovar Copenhageni and L. borgpetersenii, serogroup Tarassovi, serovar Tarassovi, were revealed by using two dimensional gel electrophoresis (2DE)-based-proteomics. Bacterial cells were disrupted in a lysis buffer containing 30 mM Tris, 2 M thiourea, 7 M urea, 4% CHAPS, 2% IPG buffer pH 3-10 and protease inhibitors and then subjected to sonication in order to solubilize as much as possible the bacterial proteins. The 2DE-separated components of both Leptospira homogenates were blotted individually onto membranes and antigenic components (immunomes) were revealed by probing the blots with immune serum of a mouse readily immunized with the homogenate of L. interrogans, serogroup Icterohaemorrhagiae, serovar Copenhageni. The immunogenic proteins of the two pathogenic Leptospira spp. could be grouped into 10 groups. These are: 1) proteins involved in the bacterial transcription and translation including beta subunit transcription anti-termination protein of DNA polymerase III, elongation factors Tu and Ts, and tRNA (guanine-N1)-methyltransferase; 2) proteins functioning as enzymes for metabolisms and nutrient acquisition including acetyl-Co-A acetyltransferase, putative glutamine synthetase, glyceraldehyde-3-phospahte dehydrogenase, NifU-like protein, 3-oxoacyl-(acyl-carrier-protein) reductase, oxidoreductase, sphingomyelinase C precursor, spermidine synthase, beta subunit of succinyl-CoA synthetase, and succinate dehydrogenase iron-sulfur subunit; 3) proteins/enzymes necessary for energy and electron transfer, i.e. electron transfer flavoprotein, and proton-translocating transhydrogenase; 4) enzymes for degradation of misfolded proteins, i.e. ATP-dependent Clp protease; 5) molecular chaperone, i.e. 60 kDa chaperonin; 6) signal transduction system, i.e. response regulator; 7) protein involved in immune evasion in host, i.e. peroxiredoxin; 8) cell structure proteins including MreB (cytoskeletal) and flagellin/ periplasmic flagellin; 9) lipoproteins/outer membrane proteins: LipL32, LipL41, LipL45 and OmpL1; and 10) various hypothetical proteins. Many immunogenic proteins are common to both Leptospira spp. These proteins not only are the diagnostic targets but also have potential as candidates of a broad spectrum leptospirosis vaccine especially the surface exposed components which should be vulnerable to the host immune effector factors.
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PMID:Proteome and immunome of pathogenic Leptospira spp. revealed by 2DE and 2DE-immunoblotting with immune serum. 1789 22

We obtained two beneficial mutants of Bradyrhizobium japonicum USDA110 with increased nitrous oxide (N(2)O) reductase (N(2)OR) activity by introducing a plasmid containing a mutated B. japonicum dnaQ gene (pKQ2) and performing enrichment culture under selection pressure for N(2)O respiration. Mutation of dnaQ, which encodes the epsilon subunit of DNA polymerase III, gives a strong mutator phenotype in Escherichia coli. pKQ2 introduction into B. japonicum USDA110 increased the frequency of occurrence of colonies spontaneously resistant to kanamycin. A series of repeated cultivations of USDA110 with and without pKQ2 was conducted in anaerobic conditions under 5% (vol/vol) or 20% (vol/vol) N(2)O atmosphere. At the 10th cultivation cycle, cell populations of USDA110(pKQ2) showed higher N(2)OR activity than the wild-type strains. Four bacterial mutants lacking pKQ2 obtained by plant passage showed 7 to 12 times the N(2)OR activity of the wild-type USDA110. Although two mutants had a weak or null fix phenotype for symbiotic nitrogen fixation, the remaining two (5M09 and 5M14) had the same symbiotic nitrogen fixation ability and heterotrophic growth in culture as wild-type USDA110.
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PMID:Generation of Bradyrhizobium japonicum mutants with increased N2O reductase activity by selection after introduction of a mutated dnaQ gene. 1884 48

To date, Certrevirus is one of two genera of bacteriophage (phage), with phages infecting Pectobacterium atrosepticum, an economically important phytopathogen that causes potato blackleg and soft rot disease. This study provides a detailed description of Pectobacterium phage CB7 (vB_PatM_CB7), which specifically infects P. atrosepticum. Host range, morphology, latent period, burst size and stability at different conditions of temperature and pH were examined. Analysis of its genome (142.8 kbp) shows that the phage forms a new species of Certrevirus, sharing sequence similarity with other members, highlighting conservation within the genus. Conserved elements include a putative early promoter like that of the Escherichia coli sigma70 promoter, which was found to be shared with other genus members. A number of dissimilarities were observed, relating to DNA methylation and nucleotide metabolism. Some members do not have homologues of a cytosine methylase and anaerobic nucleotide reductase subunits NrdD and NrdG, respectively. Furthermore, the genome of CB7 contains one of the largest numbers of homing endonucleases described in a single phage genome in the literature to date, with a total of 23 belonging to the HNH and LAGLIDADG families. Analysis by RT-PCR of the HNH homing endonuclease residing within introns of genes for the large terminase, DNA polymerase, ribonucleotide reductase subunits NrdA and NrdB show that they are splicing competent. Electrospray ionization-tandem mass spectrometry (ESI-MS/MS) was also performed on the virion of CB7, allowing the identification of 26 structural proteins-20 of which were found to be shared with the type phages of the genera of Vequintavirus and Seunavirus. The results of this study provide greater insights into the phages of the Certrevirus genus as well as the subfamily Vequintavirinae.
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PMID:Isolation and Characterization of Pectobacterium Phage vB_PatM_CB7: New Insights into the Genus Certrevirus. 3257 6


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