Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.1.21 (thymidine kinase)
 7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Selective protection of the normal host tissues from the toxic effects of anticancer agents would allow the use of higher, probably more effective, doses of the drugs. It has been demonstrated that delayed high-dose uridine administration after 5-fluorouracil decreases the extent of myelosuppression and causes faster regeneration of the bone marrow. We studied the biochemical consequences of the gastrointestinal toxicity caused by 5-fluorouracil and the potential of high-dose uridine treatment to influence these adverse effects. 5-Fluorouracil caused dose-related decreases in the biochemical parameters (thymidine kinase, sucrase, maltase, alkaline phosphatase) selected as early markers of the impaired metabolic activity of the intestinal mucosa. The nadir of the biochemical changes was reached between 24 h and 72 h after 5-fluorouracil treatment, and complete regeneration of the mucosa took 6-7 days. Delayed high-dose uridine administration failed to mitigate the severity of the gastrointestinal damage that ensued after 5-fluorouracil treatment, but caused significantly earlier regeneration of the mucosa.
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PMID:Biochemical consequences of 5-fluorouracil gastrointestinal toxicity in rats; effect of high-dose uridine. 850 Feb 30

Tolerability of approximately 30 anticancer drugs vary by 50% or more according to circadian rhythms in mice or rats. Despite pharmacokinetics parameters of cytostatic drugs vary according to dosing time in rodents, cellular rhythms appear as the main mechanisms of their chronopharmacology: circadian changes in enzymatic activities involved into fluoropyrimidine (5-fluorouracil-5-FU, or floxuridine-FUdR) catabolism (dehydropyrimidine dehydrogenase) or anabolism (thymidine kinase), rhythms in reduced glutathione, involved into cellular protection against cytotoxic effects of alkylating drugs, platinum complexes and anthracyclines, rhythms in cellular proliferation of rapidly renewing tissues, such as bone marrow or intestinal tract. Furthermore, chemotherapy injection at the least toxic time allows to increase its antitumor efficacy against several transplanted rodent tumor models. Extrapolation of these results for improving therapeutic index of chemotherapy in cancer patients was based upon the hypothesis that rhythms in metabolism or proliferation of healthy tissues were tightly coupled to the circadian sleep-wakefulness cycle, both in rodents and in man. Programmable-in-time pumps allowed to test the clinical relevance of chronotherapy principle in patients with cancer metastases. Phase I clinical trials with 5-FU, FUdR, oxaliplatin-L-OHP, interferon-alpha and doxorubicin suggested that circadian-based chronomodulation of chemotherapy delivery rate both improved drug tolerability and allowed to increase its safe dose. Antitumor activity of such chronomodulated regimens, usually involving several drugs, appeared as superior to that achieved by standard protocols in Phase II clinical trials, especially in patients with renal cell cancer receiving FUdR and in patients with colorectal cancer treated with 5-FU, folinic acid (FA) and L-OHP (so called chrono-FFL regimen). A randomized european multicenter trial validated the clinical relevance of the chronotherapy principle in 278 patients with metastatic colorectal cancer: chrono-FFL was compared to flat FFL infusion and resulted in 2 to 10 times fewer severe toxic effects and a near-doubling of its antitumor efficacy, objective response rate being 51% with chrono-FFL and 30% with flat FFL (p < 0.001). These results have warranted to test further the relevance of chronotherapy in patients with breast, lung or pancreatic cancer metastases and to develop basic research on the role of biological rhythms upon cancer processes.
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PMID:[Chronopharmacology and chronotherapy of cancers]. 897 20

FdUrd was evaluated in vivo as a potential agent for intrathecal chemotherapy of meningeal carcinomatosis. Neurotoxicity was examined pathologically in normal mice after 4 consecutive intrathecal injections of FdUrd. Using mice models of meningeal carcinomatosis, antitumor activities were studied by evaluating survival time. Pathological examination showed none of the following abnormal findings: demyelination, degeneration and destruction of ependymal linings. FdUrd also had an effect on meningeal carcinomatosis of mice (203 glioma and MM46 transplantable ascitic mammary cancer). In causing FdUrd to exhibit its efficacy, it is necessary to take into consideration the balance between the activity of two key enzymes, thymidine phosphorylase (TPase) (anabolic enzyme) and thymidine kinase (TK) (metabolic enzyme), in tumor tissues as compared with their activity in normal tissues. TPase activity which results in conversion to 5-FU was much lower in malignant glioma and metastatic brain tumors compared with tumors in other extracranial organs. TPase activity in normal brain was much less than in normal tissues in extracranial organs and its activity in gray matter (cortex) was significantly lower than that in white matter. On the other hand, TK activity in malignant brain tumors was much less than that in extracranial organs, however, its activity in normal brain was almost equal to that in normal tissues in extracranial organs. These data obtained in vivo study showed FdUrd to be a possible agent for intrathecal chemotherapy.
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PMID:[In vivo study on intrathecal use of 5-fluoro-2'-deoxyuridine (FdUrd) in meningeal dissemination of malignant tumor]. 978 91

To evaluate the possible intrathecal use of 5-fluoro-2'-deoxyuridine (FdUrd) for neoplastic meningitis, its antitumor activity and neurotoxicity in vivo were assessed. FdUrd at doses in the range 5-100 microg/animal was effective against meningeal carcinomatosis using Walker 256 carcinoma cells in rats and MM46 mammary cancer cells in mice and against meningeal gliomatosis using 203 glioma cells in mice. After four intrathecal injections, FdUrd at these doses also showed minimal neurotoxicity in the C57BL/6 mouse brain. To estimate the mechanism of FdUrd efficacy, thymidine phosphorylase (TPase) and thymidine kinase (TK), key enzymes in the metabolism of FdUrd, were measured in rat, mouse and normal human brain tissue, and in human brain tumor tissues and cerebrospinal fluid (CSF) from patients with malignant brain tumors including meningeal carcinomatosis. TPase levels were lower in brain and malignant brain tumors than in other organs and their tumors. Moreover, the activity of TPase in the gray matter of human brain, which faces the cerebrospinal fluid across the cortical surface and into which malignant cells invade in meningeal carcinomatosis, was lower than that in the white matter. TK was undetectable, and TPase was detected (at very low concentrations) in only 4 of 56 patients with brain tumors or meningeal carcinomatosis. These findings indicate that brain tissue and CSF are favorable sites for FdUrd chemotherapy because the rate of conversion of FdUrd to 5-FU would be minimal. In conclusion, FdUrd is potentially useful for intrathecal treatment of neoplastic meningitis from primary brain tumors and systemic cancer.
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PMID:Intrathecal 5-fluoro-2'-deoxyuridine (FdUrd) for the treatment of solid tumor neoplastic meningitis: an in vivo study. 992 56

Thymidylate synthase and thymidine kinase are key enzymes involved in the de novo and salvage pathways for pyrimidine nucleotide synthesis, respectively. Thymidylate synthase is inhibited by 5-fluorodeoxyuridine monophosphate, forming an inactive ternary complex with intracellular folate. We investigated the effects of 1-(2-tetrahydrofuryl)-5-FU plus uracil (UFT) with or without leucovorin on 1,2-dimethylhydrazine-induced rat colorectal carcinomas. Thirty-week administration of UFT with or without leucovorin markedly suppressed both colorectal carcinogenesis and tumor growth, resulted in the increase of thymidylate synthase inhibition and the decrease of thymidine kinase activity in the tumor cells. These results indicate that the combination of UFT with leucovorin could be useful in the development of pre- and post-operative adjuvant chemotherapy programs.
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PMID:Effects of long-term administration of UFT plus leucovorin on colorectal tumors induced with 1,2-dimethylhydrazine in rats. 1069 23

5-Fluorouracil (5-FU), 5-fluoro-2'-deoxyuridine (FdUrd) and 5-trifluorothymidine (F3(d)Thd) are antimetabolites which are metabolized to their corresponding active forms which inhibit DNA synthesis via inhibition of thymidylate synthase (TS). To investigate ways of overcoming 5-FU-resistance, we established acquired-resistant colorectal cancer cell lines against these three drugs by continuous and step-wise escalation of drugs, and analyzed the cytotoxicity and the mechanism of resistance to the drugs. When cells were incubated with the 3 drugs for 72 h, the resistance ratio to parental DLD-1 human colorectal tumor cells was 65.2 for DLD-1/5-FU, 9.7 for DLD-1/FdUrd and 448.6 for DLD-1/F3(d)Thd cells. DLD-1/5-FU cells did not show any cross-resistance against FdUrd and F(3)dThd. However, DLD-1/FdUrd cells showed 3- and 9-fold increased resistance to 5-FU and F3(d)Thd, respectively, and DLD-1/F3(d)Thd cells also showed about 90-fold resistance to FdUrd. Analysis of enzyme activities and gene expression associated with pyrimidine metabolism indicated that a significant decrease in orotate phosphoribosyltransferase activity in DLD-1/5-FU cells, a 7-fold increase of TS mRNA in DLD-1/FdUrd cells, and a 37-fold decrease in thymidine kinase activity of DLD-1/F3(d)Thd cells were the major mechanisms of drug resistance. These findings were closely associated with the cytotoxicity of 5-FU, FdUrd and F3(d)Thd against the established 5-FU-, FdUrd- or F3(d)Thd-resistant cells. When DLD-1/FdUrd cells expressing increased TS mRNA were treated with FdUrd and F3(d)Thd for only 4 h, the resistance ratios of DLD-1/FdUrd cells to parental DLD-1 cells were markedly different for FdUrd and F3(d)Thd, suggesting that the cytotoxicity with short-time exposure to F3(d)Thd is due to a mechanism other than TS inhibition, although the cytotoxicity of F3(d)Thd in the short-time is low compared to that of long-time exposure. In conclusion, F3(d)Thd, an antimetabolite that inhibits TS activity, may be effective against 5-FU and/or FdUrd-resistance in colorectal cancer cells caused by amplification of TS and/or deletion of orotate phosphoribosyltransferase.
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PMID:Different mechanisms of acquired resistance to fluorinated pyrimidines in human colorectal cancer cells. 1089 36

Previous studies have demonstrated that CW252053, a quinazoline antifolate, exhibits potent inhibitory activity against thymidylate synthase (TS) as well as cytotoxic activity against tumor cell lines in vitro. In this study, we evaluated the in vivo antitumor efficacy of CW252053 in the mouse tumor model. Female B6D2F1 mice were injected with LY3.7.2C TK-/- (thymidine kinase deficient mouse lymphoma) cells into the gastrocnemius muscle. Then, CW252053 was administered twice daily by intraperitoneal injection for 10 days, and tumor growth was monitored daily by leg diameter measurement. All animals in the vehicle, 5-FU, and low dose (30 mg/kg) CW252053 treated groups died between days 12 and 23 because of the tumor burden. In contrast, dosing with 60 mg/kg of CW252053 produced a cure rate against tumor growth of 37.5% and a survival rate of 50%. Even more significantly, a higher dose of CW252053 (120 mg/kg) elicited both a 100% cure rate and a 100% survival rate at the termination of the study, confirming that this compound has very potent in vivo antitumor activity against tumor growth. During the experimental period of this study no signs of toxicity were observed even at the high CW252053 dosage rate of 120 mg/kg.
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PMID:In vivo antitumor efficacy of CW252053, a folate-based thymidylate synthase inhibitor. 1153 65

The rat prostate tumour cell line R3327 AT-1 was transfected with a gene coding for a fusion protein comprised of cytosine deaminase (CD from E. coli) and thymidine kinase (TK from Herpes simplex virus, HSV-1). The resulting AT-1/CDglyTK cell line was sensitive to the prodrug 5-fluorocytosine (IC(50) = 78 microM, 96-h incubation) via CD and to ganciclovir (GCV, IC(50) = 1 microM, 96 h) via TK. Subcutaneous tumours generated from 100% CDglyTK(+) cells responded well to 5-FC therapy (500 mg/kg, i.p., 14 daily treatments, four out of seven animals in remission) and to GCV therapy (30 mg/kg, i.p., 14 daily treatments, five of six animals in remission). However, experiments with mixtures of CDglyTK(+) and CDglyTK(-) cells showed low levels of connexins (intercellular gap junctions) and no bystander effect for nontransfected cells using either 5-FC or GCV therapy. Furthermore, (19)F-NMR spectroscopy showed that incubation of cultured CDglyTK(+) cells with 774 microM 5-FC for 16 h resulted in the following intracellular concentrations: 5-FC = 314 microM, 5-FU = 52 microM, cytotoxic fluoronucleotides = 163 microM; extracellular 5-FU reached only 6.4 microM. Thus, in this model system intracellular trapping of 5-FU (slow export) contributes to the failure of the CD/5-FC bystander effect via an extracellular route.
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PMID:Cytosine deaminase and thymidine kinase gene therapy in a Dunning rat prostate tumour model: absence of bystander effects and characterisation of 5-fluorocytosine metabolism with 19F-NMR spectroscopy. 1242 9

5-Fluorouracil (5-FU) is the most routinely administered drug in the treatment of colon cancer. The main mechanism of the drug is not completely understood and its method of administration has been strongly disputed. A 24-hour infusion of 5-FU has clinically yielded better response rates and lower toxicities in comparison to bolus administration, but an exploration into possible mechanisms needs to be performed. Experiments were conducted with two 5-FU resistant cell lines where cytotoxicity, thymidylate synthase (T.S.) activity, thymidine kinase (T.K.) activity, DNA and RNA incorporation, and T.S. expression were contrasted between a 10 microM/24 hour administration of 5-FU (simulating continuous exposure) and a 100 microM/1 hour schedule (simulating bolus administration). After 6 days from the initial exposure, the 10 microM/24 hour schedule (schedule A) inhibited more cell growth than the 100 microM/1 hour regimen (schedule B) by more than 38% and 17% in the two cell lines. After the 6-day observation, schedule A inhibited twice as much T.S. activity as schedule B. Incorporation of [14C]-5-FU into DNA and total RNA was higher in cells exposed to schedule A in comparison to schedule B over the 6 days. T.S. expression and T.K. activity patterns were variable over time. Thus, the exposure of 10 microM/24 hour 5-FU results in superior cytotoxicity when compared to a 100 microM/1 hour regimen and its effectiveness may be explained mechanistically by T.S. activity and DNA and RNA incorporation.
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PMID:Cytotoxic effects and mechanisms of an alteration in the dose and duration of 5-fluorouracil. 1268 Feb 47

3'-Deoxy-3'-[(18)F]fluorothymidine ([(18)F]FLT) has been proposed as a new marker for imaging tumor proliferation by positron emission tomography (PET). The uptake of [(18)F]FLT is regulated by cytosolic S-phase-specific thymidine kinase 1 (TK1). In this article, we have investigated the use of [(18)F]FLT to monitor the response of tumors to antiproliferative treatment in vivo. C3H/Hej mice bearing the radiation-induced fibrosarcoma 1 tumor were treated with 5-fluorouracil (5-FU; 165 mg/kg i.p.). Changes in tumor volume and biodistribution of [(18)F]FLT and 2-[(18)F]fluoro-2-deoxy-D-glucose ([(18)F]FDG) were measured in three groups of mice (n = 8-12/group): (a) untreated controls; (b) 24 h after 5-FU; and (c) 48 h after 5-FU. In addition, dynamic [(18)F]FLT-PET imaging was performed on a small animal scanner for 60 min. The metabolism of [(18)F]FLT in tumor, plasma, liver, and urine was determined chromatographically. Proliferation was determined by staining histological sections for proliferating cell nuclear antigen (PCNA). Tumor levels of TK1 protein and cofactor (ATP) were determined by Western blotting and bioluminescence, respectively. Tumor [(18)F]FLT uptake decreased after 5-FU treatment (47.8 +/- 7.0 and 27.1 +/- 3.7% for groups b and c, respectively, compared with group a; P < 0.001). The drug-induced reduction in tumor [(18)F]FLT uptake was significantly more pronounced than that of [(18)F]FDG. The PET image data confirmed lower tumor [(18)F]FLT retention in group c compared with group a, despite a trend toward higher radiotracer delivery for group c. Other than phosphorylation in tumors, [(18)F]FLT was found to be metabolically stable in vivo. The decrease in tumor [(18)F]FLT uptake correlated with the PCNA-labeling index (r = 0.71, P = 0.031) and tumor volume changes after 5-FU treatment (r = 0.58, P = 0.001). In this model system, the decrease in [(18)F]FLT uptake could be explained by changes in catalytic activity but not translation of TK1 protein. Compared with group a, TK1 levels were lower in group b (78.2 +/- 5.2%) but higher in group c (141.3 +/- 9.1%, P < 0.001). In contrast, a stepwise decrease in ATP levels was observed from group a to b to c (P < 0.001). In conclusion, we have demonstrated the ability to measure tumor response to antiproliferative treatment with [(18)F]FLT and PET. In our model system, the radiotracer uptake was correlated with PCNA-labeling index. The decrease in [(18)F]FLT uptake after 5-FU was more pronounced than that of [(18)F]FDG. [(18)F]FLT is, therefore, a promising marker for monitoring antiproliferative drug activity in oncology that warrants additional testing.
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PMID:3'-deoxy-3'-[18F]fluorothymidine as a new marker for monitoring tumor response to antiproliferative therapy in vivo with positron emission tomography. 1467 27


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