UMLS:C0038187 - FACTA Search

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The presence of thymidine kinase has recently been reported in Tetrahymena pyriformis. The activity pattern for this enzyme was investigated during the cell cycle in both the one heat-shock per cell generation and the starvation-refeed system. Thymidine kinase was found to be a peak enzyme during S-phase in both situations. Nucleoside phosphotransferase was a continuous enzyme in the one heat-shock per cycle system, however, it closely paralleled the thymidine kinase curve during starvation and refeeding.
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PMID:Activity of thymidine kinase during the cell cycle in Tetrahymena pyriformis. 10 28

We have previously demonstrated in transient expression assay systems that a human multidrug resistance 1 (MDR1) promoter can be directly activated by cytotoxic anticancer agents. In this study, we examined whether the MDR1 promoter could be regulated in response to growth arrest induced by serum starvation. We have established human and rodent cell lines which stably expressed the chloramphenicol acetyltransferase (CAT) gene driven by various lengths of the MDR1, the viral thymidine kinase (TK) and the simian virus 40 (SV40) promoters. Serum starvation caused enhanced expression of CAT gene with MDR1 promoter, but not with two viral gene promoters in human cancer KB cells. Hydroxyurea activated the MDR1 promoter, but not TK and SV40 promoters. By contrast, the DNA topoisomerase II inhibitor, etoposide, equally activated the MDR1, TK and SV 40 promoters. Increased CAT gene expression by serum starvation was also specifically observed in stable transfectants of human adrenal SW-13 cell lines, but not in stable transfectants of mouse fibroblast NIH3T3 and adrenal Y-1 cell lines when the human MDR1 promoter-CAT was introduced. Etoposide, however, effectively induced CAT activity in both human and rodent cells. Assays with deletion constructs of the MDR1 promoter showed that serum starvation activated the MDR1 promoter carrying -258 approximately +121 base sequence of the promoter, but not -198 approximately +121 of the promoter. These results suggest that the expression of the MDR1 gene induced by serum starvation is regulated at the transcriptional level in a promoter sequence-specific manner in human cells.
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PMID:The human multidrug resistance 1 promoter has an element that responds to serum starvation. 155 May 97

Ornithine decarboxylase and thymidine kinase are enzymes that increase in activity in regenerating liver. We found that both activities and mRNA levels for these enzymes increase significantly after 70% partial hepatectomy in the rat. After sham hepatectomy (laparotomy) there were significant decreases in activity; however, mRNA content was unaltered. Similar decreases in enzyme activity, without changes in mRNA content, were found with pair-feeding, and additional decreases in activity after starvation. In contrast to previous reports of no change in ornithine decarboxylase and thymidine kinase after sham hepatectomy, the present results indicate that decreases occur. This may be mediated by the decrease in food intake after surgery. Dietary factors may be important in the physiologic regulation of these enzymes in the liver.
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PMID:Effects of partial and sham hepatectomy on ornithine decarboxylase and thymidine kinase activities and mRNA contents. 235 25

Plasmid pJM81 contains a Herpes simplex virus thymidine kinase (TK) gene that is expressed in yeast. Cells containing the plasmid utilize thymidine (TdR) and the analogue 5-bromodeoxyuridine (BUdR) for specific incorporation into DNA. TdR auxotrophs, harboring plasmid pJM81 and a mutation in the yeast gene TMP1 require high concentrations of TdR (300 micrograms/ml) to support normal growth rates and the wild-type mitochondrial genome (rho+) cannot be maintained. We have identified a yeast gene, TUT1, in which recessive mutations allow efficient utilization of lower concentrations of TdR. Strains containing the mutations tmp1 and tut1, as well as plasmid pJM81, form colonies at 2 micrograms/ml TdR, grow at nearly normal rates and maintain the rho+ genome at 50 micrograms/ml TdR. These strains can be used to radiolabel DNA specifically and to synchronize DNA replication by TdR starvation. In addition, the substitution of BUdR for TdR allows the selective killing of DNA-synthesizing cells by 310-nm irradiation and allows the separation of replicated and unreplicated forms of DNA by CsCl equilibrium density banding. We also describe a unique, generally applicable system for cloning mutant alleles that exploits the fact that Tk+ yeast cells are sensitive to 5-fluorodeoxyuridine (FUdR) and that gene conversions can occur between a yeast chromosome and a TK-containing plasmid.
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PMID:Thymidine utilization by tut mutants and facile cloning of mutant alleles by plasmid conversion in S. cerevisiae. 302 59

The ability to respond to changes in the external and internal environments is a fundamental characteristic of intestinal structure and function. We compared the responses of the rat proximal and distal small intestine to the stresses of fasting and refeeding in the rat. In the duodenum, 3 days of starvation caused villus and crypt hypoplasia, reduced incorporation of [3H]thymidine into crypt cells, decreased cell migration rate on the villus, and lowered specific and total activities of several cellular enzymes. These changes were reversed by 1 day of refeeding. In contrast, mucosal hypoplasia did not occur in the ileum during fasting, and the specific activities of the disaccharidases were increased after 3 days of starvation. However, ileal [3H]thymidine incorporation, thymidine kinase activity, and ornithine decarboxylase activity decreased during starvation. These effects were also reversed by refeeding. The results of these studies illustrate differing responses for the proximal and distal small intestine and suggest the presence of distinctly differing mechanisms for the control of their mucosal mass and enzyme activities.
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PMID:Ileal hyperplastic response to starvation in the rat. 372 71

The growth of MCF-7 cells was arrested by 24 h of isoleucine deprivation. Following replenishment of the medium, the incorporation of uridine and thymidine into trichloroacetic acid-precipitable material began to increase slowly and gradually rose to the level of cycling cells. The addition of 5 X 10(-9) M estradiol to growth-arrested cells dramatically shortened the time of onset of macromolecular synthesis and increased the overall amount of precursor incorporation 2- to 4-fold over the level obtained by arrested control cells. The increase in uridine incorporation preceded the increase in thymidine incorporation by 6 h. Inhibition of protein synthesis with cycloheximide blocked the recovery of macromolecular synthesis in both control and estrogen-treated cells. Actinomycin D was ineffective in blocking the estrogen-stimulated recovery of macromolecular synthesis at concentrations known to inhibit pre-rRNA synthesis (10(-8) M). At higher concentrations, uridine and thymidine incorporation were inhibited in a dose-dependent manner. Inhibition of RNA polymerase II activity with alpha-amanitin similarly blocked both the recovery of the cells from isoleucine starvation and the potentiation of this by estradiol. Dihydrofolate reductase and thymidine kinase activities are both stimulated by estradiol in MCF-7 cells. In cycling cells, estrogen stimulates a 2-fold increase in their messenger RNAs (mRNAs) within 24 h. The level of dihydrofolate reductase mRNA is unaffected by isoleucine starvation, and estrogen caused no change in dihydrofolate reductase mRNA levels over a 24-h period following reversal of growth arrest. Similar results were observed for the 600-nucleotide pS2 mRNA that has been identified as an estrogen-induced RNA in MCF-7 cells. In contrast, thymidine kinase mRNA was found to be increased by estrogen at 24 h, but not at 12 h, following reversal of growth arrest. This increase correlates with increases in thymidine, but not uridine incorporation. These data indicate that the estrogen-stimulated increase in thymidine incorporation following release from growth arrest is dependent on new RNA synthesis. However, the hormone did not increase the levels of three estrogen-regulated mRNAs coordinately with the increases observed in uridine incorporation.
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PMID:Relationship between the expression of estrogen-regulated genes and estrogen-stimulated proliferation of MCF-7 mammary tumor cells. 398 99

Dialyzed extracts of Bacillus megaterium KM contain thymidine, deoxyadenosine, and deoxyguanosine kinase activities. Thymidine kinase activity is best with deoxyadenosine triphosphate or deoxyguanosine triphosphate (dGTP) as the phosphoryl donor, whereas the best deoxyadenosine kinase activity is obtained with dGTP or adenosine triphosphate. Deoxyguanosine kinase activity functions optimally with deoxycytidine triphosphate as the donor. Although the thymidine kinase activity of crude extracts does not have a demonstrable divalent cation requirement, the addition of Mg(2+) or Mn(2+) is necessary for the formation of thymidine di- and triphosphates. The synthesis of thymidine kinase appears to be partially derepressed by thymine starvation. Incubation of extracts with deoxyadenosine and dGTP results in the substantial accumulation of deoxyadenosine di- and triphosphates. Extracts deaminate deoxycytidine to deoxyuridine, presumably as a consequence of the action of deoxycytidine deaminase, and then convert deoxyuridine to deoxyuridylic acid. B. megaterium extracts do not contain any detectable deoxycytidine kinase activity.
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PMID:Deoxynucleoside kinases of Bacillus megaterium KM. 499 37

The regulatory role of autonomic nerves in liver regeneration after partial hepatectomy was studied in rats by bilateral subdiaphragmatic vagotomy or splanchnicectomy. 1. In control rats the wet weight of the regenerating liver was restored to approximately 80% of the preoperative weight 72 h after partial hepatectomy. Restoration of the liver weight was significantly impaired in vagotomy rats, but not in splanchnicectomy. Increases in the DNA and protein contents of the regenerating liver were also suppressed by vagotomy. 2. Hepatic DNA synthesis, measured as the incorporation of [methyl-3H]thymidine into DNA at various times after partial hepatectomy, was significantly less in vagotomized rats, and slightly more in splanchnicectomized rats than in control rats. The onset of DNA synthesis triggered by partial hepatectomy was also delayed by vagotomy. 3. The increases in activities of hepatic aspartate transcarbamoylase and thymidine kinase, the key enzymes in synthesis of pyrimidine nucleotides via the de novo and salvage pathways respectively, during liver regeneration, were significantly suppressed and retarded in vagotomized rats. Conversely, splanchnicectomy tended to stimulate these enzyme inductions after partial hepatectomy. 4. During starvation the plasma insulin level decreased after partial hapatectomy in control and vagotomized rats, as in sham-operated rats, but showed a transient increase 6 h after partial hepatectomy in splanchnicectomized rats. It is concluded that vagotomy inhibits and delays DNA synthesis and proliferation of liver cells after partial hepatectomy, whereas splanchnicectomy tends to stimulate these processes. The data also suggest that parasympathetic innervation of the liver may play an important regulatory role in liver regeneration.
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PMID:Effect of autonomic denervation on DNA synthesis during liver regeneration after partial hepatectomy. 634 92

The effects of 1-4 days of fasting and 3-24 h of refeeding of 4-day fasted rats on the rate of [3H]-thymidine incorporation into DNA in vitro (referred to as DNA synthesis) and the activity of thymidine kinase and DNA polymerase were measured in the oxyntic gland mucosa. Ad libitum fed rats served as control. Starvation for 1-4 days significantly depressed the activity of mucosal thymidine kinase (39-58%) and DNA polymerase (26-36%), when compared with the initially fed control. Mucosal DNA synthesis, measured in 3- and 4-day fasted rats, was also markedly decreased (80-90%) compared to the fed control. Refeeding of 4-day fasted rats significantly stimulated DNA synthesis and the activity of thymidine kinase and DNA polymerase. However, whereas DNA polymerase and thymidine kinase attained their respective peak activity (84 and 340% above the 4-day fasted level) after 3 and 6 h of refeeding, DNA synthesis was significantly stimulated (700% above the 4-day fasted control) after 9 h of refeeding. Administration of actinomycin-D prior to refeeding reduced the magnitude of stimulation of mucosal thymidine kinase and the rate of DNA synthesis, but had no effect on DNA polymerase activity which was found to be stimulated to the level of non-antibiotic treated rats. The current results demonstrate that following refeeding mucosal DNA polymerase and thymidine kinase activities are increased before DNA synthesis is significantly stimulated. Blocking of the maximal stimulation of mucosal thymidine kinase lowers the magnitude of the subsequent rise in DNA synthesis caused by refeeding.
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PMID:Regulation of gastric mucosal DNA synthesis during fasting and refeeding in rats. 688 85

The effect of resuming food intake after a period of starvation (refeeding) on the specific activities of selected rat intestinal enzymes was determined. The rate of weight gain was higher in refed animals than in control animals, without a difference in food intake. Fasting caused intestinal atrophy which reversed rapidly on refeeding. Fasting decreased the specific activities of sucrase, maltase, and galactokinase, but did not affect the specific activities of hexokinase, pyruvate kinase, or crypt thymidine kinase. Sucrase, maltase, hexokinase, pyruvate kinase, and thymidine kinase specific activities all rose above control values during refeeding. The overshoot in intestinal enzyme specific activities may help promote the rapid weight gain observed in refed rats and is an integral part of the total adaptation to fasting and refeeding.
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PMID:Refeeding after a fast in rats: effects on small intestinal enzymes. 705 2

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