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Query: UMLS:C0019204 (
hepatocellular carcinoma
)
71,386
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The activity of
deoxycytidine kinase
(
EC 2.7.1.74
), an important pyrimidine salvage enzyme, was elevated 5- to 30-fold in human ovarian carcinoma and OVCAR-5 cells, in human colon carcinoma and HT-29 cells, in rat
hepatoma
3924A solid tumors and cells, and in rat sarcoma as compared with the respective control normal cells. There was an inverse relationship between cell doubling time and
deoxycytidine kinase
activity in 8 cancer cell lines, with rapidly growing HL-60 cells (20 hr) showing the highest, and slower-growing lung H69 cells (60 hr) the smallest, increase in enzyme activity. In time-sequence studies in human HL-60, OVCAR-5, PANC-1, and rat
hepatoma
3924A cells, there was a significant rise in
deoxycytidine kinase
activity after 3-6 hr of seeding, with peak increases (3.5- to 4-fold) at 48-72 hr in the log phase in comparison with values of the respective plateau phase cells (96-144 hr). In extracts of various cancer cells, the high
deoxycytidine kinase
activity was competitively inhibited by difluorodeoxycytidine (DFDC), with Ki = 7 to 30 microM. The Km for deoxycytidine in various carcinoma cell lines ranged from 0.3 to 0.7 mM and addition of DFDC increased the apparent Km from 0.7 to 4 mM. Deoxycytidine kinase activity in human HL-60 cells was inhibited by the end product, dCTP, with IC50 = 3 microM; dCTP elevated the Km for deoxycytidine from 0.35 to 0.9 mM. dTTP reversed the inhibition by dCTP.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Increased deoxycytidine kinase activity in cancer cells and inhibition by difluorodeoxycytidine. 129 79
Tiazofurin (TR), an inhibitor of IMP dehydrogenase, causes remissions and induced differentiation in human leukemia through lowering the concentrations of GTP and dGTP. A deoxycytidine analog, difluorodeoxycytidine (DFDC), is an anti-tumor agent phosphorylated by
deoxycytidine kinase
, resulting in decreased concentration of dCTP, leading to inhibition of DNA synthesis. In HL-60 cells DFDC induced differentiation and inhibited proliferation in a dose-dependent manner (IC50 = 4 nM); TR provided synergism with DFDC. DFDC inhibited proliferation in OVCAR-5 human ovarian carcinoma cells (IC50 = 25 nM) and colony formation in PANC-1 human pancreatic carcinoma cells (IC50 = 2 nM) and rat
hepatoma
3924A cells (IC50 = 22 nM). TR and DFDC are synergistically cytotoxic in
hepatoma
cells and additive in PANC-1 cells. The two drugs together should be helpful in treating leukemias and solid tumors in humans.
...
PMID:Synergistic action of tiazofurin and difluorodeoxycytidine on differentiation and cytotoxicity. 134 74
(1) Deoxycytidine kinase activity increased in a transformation- and progression-linked fashion in rat hepatomas of different proliferation rates. The activity also increased and was growth rate-linked in a series of tissue culture cell lines of human and animal tumors. (2) Deoxycytidine kinase activity was stringently linked with expression of the neoplastic proliferative program as it sharply increased in log phase in tissue culture cells of
hepatoma
3924A and several human carcinoma strains. (3) Deoxycytidine kinase is subject to nutritional and hormonal regulation. On starvation the activity in liver decreased and on refeeding it returned to normal. Steroid hormone increased liver enzymic activity. Deoxycytidine kinase is substrate-inducible, since deoxycytidine injections in rat led to a 2- to 3-fold increase in hepatic enzyme activity. (4) Actinomycin or cycloheximide treatment blocked the increase in liver
deoxycytidine kinase
activity induced by steroid or deoxycytidine treatment. Therefore, it is assumed that the rise in
deoxycytidine kinase
activity requires new RNA and protein synthesis. (5) Cycloheximide treatment of rats carrying hepatomas yielded a t1/2 = 3.4 hr in the tumor for
deoxycytidine kinase
activity which was the shortest among the examined enzymes of purine and pyrimidine biosynthesis. (6) Actinomycin treatment of rats carrying hepatomas yielded a t1/2 of 5.8 hr for
deoxycytidine kinase
activity in the tumor which was one of the shortest in the examined enzymes of purine and pyrimidine biosynthesis. (7) Difluorodeoxycytidine (DFDC) is a competitive inhibitor (Ki = 7-28 microM) of
deoxycytidine kinase
from rat
hepatoma
and from human pancreatic carcinoma and ovarian carcinoma cells in culture.
...
PMID:Regulation of deoxycytidine kinase activity and inhibition by DFDC. 835 16
beta-L-(-)-2',3'-Dideoxy-3'-thiacytidine (3TC) is a cytosine nucleoside analog that potently inhibits the replication of human and duck hepatitis B viruses and human immunodeficiency virus through the activity of its 5'-triphosphate ester metabolite. The present study examined the intracellular decay of 3TC 5'-phosphates and tested strategies for modulating the cellular content of those nucleotides in primary cultures of duck hepatocytes and in human
hepatoma
2.2.15 cells and CCRF-CEM T lymphoblasts. Inhibition by deoxycytidine of the 5'-phosphorylation of 3TC in duck hepatocytes confirmed that, as in mammalian cells,
deoxycytidine kinase
catalyzed 3TC activation. The 5'-mono, 5'-di-, and 5'-triphosphates of 3TC underwent monoexponential elimination from duck hepatocytes and 2.2.15 cells (half-lives, 3.6 to 8.0 h). Thymidine and fludarabine, which are agents that enhance the activity of
deoxycytidine kinase
, were tested in strategies for increasing the cellular content of 3TC 5'-phosphates. Coordinate treatment of cells with 3TC and thymidine (50 microM) increased the content of 3TC 5'-monophosphate in duck hepatocytes and the content of 3TC 5'-di- and 5'-triphosphates in 2.2.15 cells, but enhancement of 3TC 5'-phosphate levels in CCRF-CEM cells required a higher thymidine concentration (100 microM). Fludarabine (5 microM) did not affect the contents of 3TC 5'-di- and 5'-triphosphates in duck hepatocytes, but modestly increased the contents of those nucleotides in 2.2.15 cells and CCRF-CEM cells. Nitrobenzylthioinosine (NBMPR), an inhibitor of the es facilitated diffusion nucleoside transporter, reduced the level of entry of 3TC into 2.2.15 cells and abolished inward fluxes of thymidine, adenosine, and deoxycytidine. In 2.2.15 cells and CCRF-CEM cells, NBMPR reduced the formation of 3TC 5'-di- and 5'-triphosphates and reversed the thymidine- and fludarabine-induced increases in the formation of those nucleotides. NBMPR protected against the cytotoxicity of 3TC in CCRF-CEM cells, whereas thymidine potentiated that toxicity, apparently by enhancing the formation of 3TC 5'-triphosphate. Taken together, these results indicate that
deoxycytidine kinase
and the es nucleoside transporter are targets for manipulation of the metabolism and activity of 3TC.
...
PMID:Modulation of the metabolism of beta-L-(-)-2',3'-dideoxy-3'-thiacytidine by thymidine, fludarabine, and nitrobenzylthioinosine. 914 44
As documented in the recent literature, there are more than 50 million people infected with HIV worldwide to date since the emergence of HIV and AIDS in the Western world in 1981. More importantly, about 7000 people die of AIDS daily with 2.5 and 2.6 millions total deaths in 1998 and 1999, respectively. On the other hand, human hepatitis B virus (HBV) is the leading cause of chronic hepatitis in the world. According to WHO executive summary, over 350 millions (approximately 5% of the world s population) people are chronically infected with HBV. There are about 1 million chronic HBV carriers in the United States. Although safe and effective vaccination for HBV is available for developing countries, there is still no effective treatment for the millions of chronically infected individuals. Consequently, long term infection with chronic HBV could lead to cirrhosis, and
hepatocellular carcinoma
. In light of these facts, it is evident that the discovery and development of novel antiviral agents for the treatment of HIV and HBV is an extremely important undertaking.The interest in L-nucleosides was spurred in recent years by the findings that L-nucleosides are generally endowed with lower host toxicity while maintaining good antiviral activity in comparison to their respective D-nucleosides. The recent FDA approval of Lamivudine [L-BCH 189 (3TC)] for the treatment of HIV and HBV further supports these notions. Since the discovery of Lamivudine, a large number of 2 ,3 -dideoxy (dd)- and 2 ,3 -didehydro-2 ,3 -dideoxy (D4)-L-nucleoside analogs have been synthesized and evaluated in hopes of identifying even better antiviral agents. As a result, 2 ,3 -Dideoxy-2 ,3 -didehydro-beta-L-fluorocytidine (beta-L-Fd4C) was found to be a promising new lead. The first synthesis and antiviral activity assessment of L-Fd4C were reported by Lin and Cheng et al. in 1996. Recent disclosures from several laboratories clearly demonstrated that L-Fd4C was the most potent anti-HBV agent reported to date (vs. 3TC, L-FddC, L-FMAU, etc.). In fact, L-Fd4C proved to be at least 10 times more potent than Lamivudine on HBV DNA synthesis in the
hepatoma
cell line HepG2 2.2.15. Compared with L-Fd4C, D-Fd4C showed similar anti-HIV activity yet reduced anti-HBV activity. 2 F-L-Fd4C exhibited excellent acid stability but reduced antiviral activity and cytotoxicity. Although L-Fd4C is converted intracellularly by cytoplasmic
deoxycytidine kinase
to its mono-, di- and triphosphate metabolites,43 the newly prepared bis(SATE)-L-Fd4CMP proved to be more potent against HBV yet less cytotoxic than L-Fd4C itself. The chemically synthesized L-Fd4CTP was found to be a poor substrate for human polymerase gamma. A recent report from Zhu and Cheng et al. indicated that L-Fd4C had no inhibitory effect on mitochondrial DNA synthesis at concentrations up to 10 microM. An in vivo study involving HBV-infected ducks showed that longer administration of L-Fd4C induced a sustained suppression of viremia (>95%) and of viral DNA synthesis in the liver. The same study also demonstrated that L-Fd4C is more potent than 3TC in vivo. In summary, on the basis of the data presented in this chapter, it is evident that L-Fd4C is endowed with exceptional anti-HBV activity (both in vitro and in vivo) as well as an acceptable toxicity profile, thus rendering it a very promising development candidate.
...
PMID:Comparative evaluation of L-Fd4C and related nucleoside analogs as promising antiviral agents. 1196 52
Deoxycytidine kinase (
EC 2.7.1.74
, dCK) is central to drug activity of anticancer and antiviral agents such as cytosine arabinoside (araC) and gemcitabine. HepG2
hepatocellular carcinoma
cells were used to study the transcriptional regulation of dCK. 5'-Deletion and site-directed mutagenesis of the dCK upstream region (positions -464 to -27) confirmed the importance of two GC-boxes (positions -317 to -309 and -213 to -206) and two E-boxes (positions -302 to -297 and -278 to -273). In vitro electromobility shift assays with HepG2 nuclear extracts and in vivo chromatin immunoprecipitation assays with HepG2 chromatin extracts confirmed the presence of bound Sp1/Sp3 and USF1/2. Co-transfections in HepG2 cells showed that USF1 and USF2a stimulated and Sp1 repressed promoter activity from a dCK-luciferase reporter gene construct. In Sp- and USF-null Drosophila Mel-2 cells, both Sp1 and USF1 stimulated dCK promoter activity in a dose-dependent manner, however, both Sp3 and USF2a were effectively inert. Combined Sp1 and USF1 showed additive transactivation at lower concentrations of Sp1. Sp1 was inhibitory at higher levels. Stimulation by combined USF1/USF2a with Sp1 was similar to that for USF1 alone with Sp1, whereas transactivation by Sp1 and USF2a without USF1 was synergistic. Physical interactions between USF and Sp proteins were confirmed by immunoprecipitations with Sp- and USF-specific antibodies. Domain mapping of USF1 and USF2a localized the functional interactions between USF and Sp proteins to the DNA binding domain of USF. Identifying the physical and functional interactions between Sp and USF proteins may lead to a better understanding of the basis for differential expression of the dCK gene in tumor cells and may foster strategies for up-regulating dCK gene expression and improving chemotherapy with araC and gemcitabine.
...
PMID:Physical and functional interactions between USF and Sp1 proteins regulate human deoxycytidine kinase promoter activity. 1451 91
Chronic infection with hepatitis C virus (HCV) is a major global health burden and is associated with an increased risk of liver cirrhosis and
hepatocellular carcinoma
. Current therapy for HCV infection has limited efficacy, particularly against genotype 1 virus, and is hampered by a range of adverse effects. Therefore, there is a clear unmet medical need for efficacious and safe direct antiviral drugs for use in combination with current treatments to increase cure rates and shorten treatment times. The broad genotypic coverage achievable with nucleosides or nucleotides and the high genetic barrier to resistance of these compounds observed in vitro and in vivo suggest that this class of inhibitors could be a valuable component of future therapeutic regimens. Here, we report the in vitro inhibitory activity and mode of action of 2'-deoxy-2'-spirocyclopropylcytidine (TMC647078), a novel and potent nucleoside inhibitor of the HCV NS5B RNA-dependent RNA polymerase that causes chain termination of the nascent HCV RNA chain. In vitro combination studies with a protease inhibitor resulted in additive efficacy in the suppression of HCV RNA replication, highlighting the potential for the combination of these two classes in the treatment of chronic HCV infection. No cytotoxic effects were observed in various cell lines. Biochemical studies indicated that TMC647078 is phosphorylated mainly by
deoxycytidine kinase
(
dCK
) without inhibiting the phosphorylation of the natural substrate, and high levels of triphosphate were observed in Huh7 cells and in primary hepatocytes in vitro. TMC647078 is a potent novel nucleoside inhibitor of HCV replication with a promising in vitro virology and biology profile.
...
PMID:Antiviral activity and mode of action of TMC647078, a novel nucleoside inhibitor of the hepatitis C virus NS5B polymerase. 2157 30
Clinical diagnosis of
hepatocellular carcinoma
(
HCC
) relies heavily on radiological imaging. However, information pertaining to liver cancer treatment such as the proliferation status is lacking. Imaging tumor proliferation can be valuable in patient management. This study investigated
18
F-labeled clofarabine ([
18
F]CFA) targeting
deoxycytidine kinase
(
dCK
) for PET imaging of
dCK
-dependent proliferation in
HCC
. Since clinical PET scans showed a high liver background uptake of [
18
F]CFA, the aim of this study was to reduce this liver background uptake. A clinically relevant animal model of spontaneously developed
HCC
in the woodchucks was used for imaging experiments. Several modifiers were tested and compared with the baseline PET scan: Forodesine, probenecid, and cold clofarabine, all applied before the hot [
18
F]CFA injection to evaluate the reduction in liver background uptake. Application of forodesine before hot [
18
F]CFA injection did not reduce the background uptake. Instead, it increased the background by 11.6-36.3%. Application of probenecid also increased the liver background uptake by 16.6-32.1%. Cold CFA application did reduce the liver background uptake of [
18
F]CFA, comparing to the baseline scan. Combining cold CFA with [
18
F]CFA for PET imaging of liver cancers is a promising strategy, worthy of further clinical evaluation.
...
PMID:[
18
F] Clofarabine for PET Imaging of Hepatocellular Carcinoma. 3170 7
