EC:2.7.1.21 - FACTA Search

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Query: EC:2.7.1.21 (thymidine kinase)
7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gene therapy as an anti-tumor strategy is becoming a powerful tool for cytokine delivery to inhibit the growth of many tumors. Several delivery systems are being utilized and designed for the expression of specific genes to achieve a therapeutic result. Liposomes, retroviral vectors, and adenoviral vectors have all been used and eventual clinical application may depend on the type of tumor, the location, the specific gene carried, and the patient's health status. Novel expression vectors may eventually achieve tissue-specific targeting and low immuno-reactivity. Inactivation of mutated oncogenes, such as ras, or re-expression of inactive suppressor genes, such as p53 have been used as strategies for anti-tumor therapy. Additionally, exogenious genes, such as viral thymidine kinase that metabolize chemotherapeutic agents to achieve local cytotoxicity have also been employed. Neuro-endocrine tumors are targets of these gentic strategies since they are often difficult to treat by conventional methods because of their location (brain tumors) or because they have spread from the primary tumor (melanoma). Further advances in the design of these vectors may achieve safe targeting of a variety of malignant tumors.
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PMID:Anti-tumor gene therapy. 904 51

Pancreatic cancer is extremely resistant to various cancer therapies, however, variety of new therapies for pancreatic cancer have been investigated: (1) immunotherapy including cytokines like TNF, adoptive immunotherapy with lymphokine-activated killer cells or cytotoxic T-lymphocytes, and tumor vaccines using mutated Ki-ras oncoprotein or irradiated tumor cells which were transfected by cytokine genes; (2) gene therapy including transfer of cytokine genes or antisense Ki-ras oncogene, and a combination of gene transfer of herpes simplex virus thymidine kinase and subsequent administration of ganciclovir; (3) differentiation therapy including a quinolinone derivative, vesnarinone; (4) endocrine therapy including cholecystokinin-receptor antagonist, CR1505 or L364,718; (5) heavy water, and etc. All of these therapies will be applied for the treatment of pancreatic cancer in the near future.
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PMID:[Newly-developing therapies of pancreatic cancer--immunotherapy, gene therapy, differentiation therapy, endocrine therapy and others]. 927 72

In Lactobacillus acidophilus R-26, the synthesis of DNA precursor deoxynucleotides occurs exclusively by salvage of deoxynucleosides, beginning with phosphorylation by four deoxynucleoside kinases. Subunits bearing three of these activities are uniquely organized into two heterodimers, deoxyadenosine/deoxycytidine kinase (dAK/dCK) and deoxyadenosine/deoxyguanosine kinase (dAK/dGK), which, along with a distinct deoxythymidine kinase (TK), catalyze the parallel first committed steps of dNTP biosynthesis. Whereas TK is common to most prokaryotes (and eukaryotes), the other three activities that are the emphasis of this review are quite unusual in bacteria. Each activity is regulated in cis by its homologous end-product (dNTP) which is understood to act as a multisubstrate inhibitor capable of binding to both nucleoside and phosphate subsites. Conversely, the inactive dAK subunit is progressively activated by 1) association with a dGK or dCK subunit and 2) the conformationally driven heterotropic affect of dGuo or dCyd bound to the opposing subunit. Limited proteolysis has proven to be a powerful probe of conformational states. Further indication of conformational or structural differences between dAK and dGK (or dCK) is that the former follows an ordered kinetic path, while dGK or dCK exhibits rapid-equilibrium random kinetics. The multi-substrate behavior of end-product binding provides a convenient new diagnostic tool for distinguishing kinetic mechanisms. Tandem dak-dgk genes have been cloned from Lactobacillus DNA and expressed in Escherichia coli as dAK/dGK, utilizing the associated promoter. Sequence alignments reveal 65% identity in their DNA and 61% in their derived amino acid sequences. Encoded N-terminal sequences are identical for the first 18 residues, and both subunits share conserved sequences in common with adenylate kinase and viral TK. A more unusual conserved element, which appears to play a role in the activation of dAK, resembles the G2 loop of p21 ras. Remarkably, no homologous gene(s) for the dAK/dCK pair could be found. Comparisons of amino acid sequences, isoelectric pHs and subunit masses strongly indicated that native dCK and dGK are identical in sequence, except at their extreme N-termini (M-IVL for dCK and -TVIVL for dGK), suggesting that processing of a common precursor occurs in Lactobacillus. Accordingly, deletion of codons 2 and 3 from dgk resulted in the expression of dAK/dCK in the E. coli host; its kinetic properties are indistinguishable from those of native dAK/dCK. Subcloning the dgk or engineered dck gene resulted in expression of active dGK or dCK homodimers, each with a virtually unchanged Km toward its primary deoxynucleoside. However, in common with human dCK, dCK (or dGK) homodimer exhibits secondary activities with much larger Kms towards dAdo and dGuo (or dCyd). dCTP (or dGTP) is the best inhibitor of all three activities of the respective homodimer. Fully active heterodimers can be reconstituted simply by mixing a homodimer with independently expressed (inactive) dAK.
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PMID:Life on the salvage path: the deoxynucleoside kinase of Lactobacillus acidophilus R-26. 942 44

The far upstream region of the rat Ha-ras gene has been characterized to determine whether possible repressor sequences may control the low level of Ha-ras gene transcription from its TATA-less, GC-rich strong promoter. The chloramphenicol acetyl transferase (CAT) gene under the control of the 3.8-kb Ha-ras upstream promoter was minimally expressed in HeLa cells. Surprisingly, CAT gene expression was increased by the deletion of a 0.7-kb BglII fragment containing non-coding exon minus 2 and TATA box promoter elements located 1.7 kb upstream of the GC-rich strong promoter. Far upstream (CA)25 repeats also appeared to repress Ha-ras gene activity. Sequences within the 0.7-kb BglII fragment suppressed CAT gene expression when placed upstream of a heterologous thymidine kinase (tk) gene promoter. Repressor activity was further localized to a 160-bp AvrII-BglII sub-fragment. Gel shift assays identified two sequence-specific DNA binding proteins. The results demonstrated for the first time that far upstream repressor sequences control normal transcription of the Ha-ras proto-oncogene.
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PMID:Role of far upstream repressor elements controlling proto-Ha-ras gene transcription. 983 72

Using an inducible transcription system which allows the regulated expression of C/EBP isoforms in tissue culture cells, we have found that the ectopic expression of C/EBPalpha, at a level comparable to that found in normal liver tissue, has a pronounced antimitogenic effect in mouse L cells and NIH 3T3 cells. The inhibition of cell division by C/EBPalpha in mouse cells cannot be reversed by simian virus 40 T antigen, by oncogenic ras, or by adenovirus E1a protein. When expressed in thymidine kinase-deficient L cells or 3T3 cells, C/EBPalpha is detected in a protein complex which binds to the E2F binding sites found in the promoters of the genes for E2F-1 and dihydrofolate reductase (DHFR). Bacterially expressed C/EBPalpha has no affinity for these E2F sites, but when recombinant C/EBPalpha is added to nuclear extracts from mouse fibroblasts, a new E2F binding activity appears, which contains the C/EBPalpha protein. Using an E2F-DP1-responsive promoter linked to a reporter gene, it can be shown that C/EBPalpha directly inhibits the induction of this promoter by E2F-DP1 in transient-transfection assays. Furthermore, C/EBPalpha can be shown to inhibit the S-phase induction of the E2F and DHFR promoters in permanent cell lines. These findings delineate a straightforward mechanism for C/EBPalpha-mediated cell growth arrest through repression of E2F-DP-mediated S-phase transcription.
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PMID:C/EBPalpha inhibits cell growth via direct repression of E2F-DP-mediated transcription. 1091 81

In order to achieve tumor-specific targeting of adeno-associated virus (AAV)-mediated gene expression, the promoter of the glucose transporter isoform 1 (GLUT1) gene was cloned upstream of the enhanced green fluorescence protein (EGFP) and the herpes simplex virus thymidine kinase (HSVtk) gene. FACS analysis performed at 48 h after transient infection with rAAV/cytomegalovirus (CMV)egfp viral particles revealed an increase of fluorescence in all the cell lines tested. However, EGFP expression under control of the GLUT1 promoter element (rAAV/GTI-1.3egfp) was limited to the tumor cells and oncogene-transformed cells. Evidence for phosphorylation of the HSVtk substrates ganciclovir (GCV) and 125I-deoxycytidine was found in all transfected tumor cell lines compared to noninfected controls (HCT116: 111%; MH3924A: 130%; HaCaT-RT3: 257% increase), but not in HaCaT and HUVEC cells. Furthermore, tumor cells and the oncogene-transformed (ras) cell line HaCaT-RT3 showed a GCV-induced reduction in cell number (HCT116: -71%; MH3924A: -43% and HaCaT-RT3: -31%). No statistically relevant cytotoxic effect was observed in HaCaT (6% decrease) and HUVEC cells (2% decrease). Furthermore, a reduction of 3H-thymidine incorporation into the DNA was seen after treatment with GCV (HCT116: 38%; MH3924A: 33% and HaCaT-RT3: 37% decrease). In a therapy study of HSVtk-expressing tumors with GCV, we achieved total tumor remission.
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PMID:Tumor-specific gene expression using regulatory elements of the glucose transporter isoform 1 gene. 1468 25

Gene therapy with Herpes Simplex Virus thymidine kinase gene (HSV-tk) is effective in various tumor models in vitro and in vivo. We compared the efficacy of the HSV-tk gene therapy in vitro and in vivo in MCF-7 and MCF7-ras cells which form tumor in athymic mice. After viral infection, cells were treated with GCV (Ganciclovir) and live cells were counted. The in vitro treatment significantly inhibited cell growth but did not induce early and late apoptosis, measured, respectively, by annexin or by propidium iodide staining and a significant cell death. The HSV-tk/GCV treatment of MCF7-ras tumor in athymic mice showed a significant inhibition of tumor development until 60 days post-treatment. Some mice showed a complete tumor eradication without tumor regrowth after the end of treatment. In conclusion, we demonstrated that the HSV-tk/GCV system is not very efficient in vitro, but very efficient in vivo in our animal breast cancer model.
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PMID:"Suicide" gene therapy of breast cancer cells is only cytostatic in vitro but anti-tumoral in vivo on breast MCF7-ras tumor. 1564 26

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