UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

C57BL/6 male mice bearing the Ehrlich escites tumor were subjected to two schedules of intermittent starvation, and the effect on the tumor's growth and production of lactic acid was determined. Fasting resulted in a linear dose--response inhibition of tumor growth, but did not alter its lactic acid production.
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PMID:Effects of fasting on growth and glycolysis of the Ehrlich ascites tumor. 125 73

The success of adoptive immunotherapy is dependent in part on the successful delivery of effector cells to the tumor and the expression of cellular activities, such as adhesion, extravasation, and cytotoxic activity of the effector cells in the tumor. The structural rigidity of the effector cell is an important determinant of these functions. The present study was designed to quantify the changes in cellular rigidity and cytotoxic activity of human natural killer (NK) cells in the presence or absence of interleukin-2 (IL-2). Micropipet aspiration was used to measure the resistance of NK cells to an imposed external deformation. Homogeneous suspensions of NK cells were activated with 1000 U/mL of recombinant IL-2 in vitro and tested for cellular rigidity from 0 to 96 h post stimulation. The IL-2 activated cells increased their rigidity within 24 h and maintained it at this level for 96 h. Prolonged incubation of cells in IL-2 (14 d) resulted in a consistently high rigidity, which was further increased on starvation of the cells from IL-2. The increased rigidity of these cells was maintained throughout 96 h of IL-2 deprivation, although significant relaxation of rigidity was observed between 48 and 96 h. The relaxation of rigidity was associated with an increase in the number of nonviable cells. Reintroduction of IL-2 for 24 h to a culture of NK cells depleted of IL-2 for 48 h did not restore the cells to the pre-depletion level of rigidity. Cytotoxic activity of the activated NK cells following removal of IL-2 decreased to about 60% of the control activity within 24 h and continued through 72 h post-deprivation. These findings suggest that the initial activation of human NK cells by IL-2 will produce a relatively rapid increase in rigidity that may cause entrapment of these cells in small capillaries in vivo and that removal of IL-2 will produce an additional increase in rigidity, which is associated with decreased functional activity.
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PMID:Kinetics of interleukin-2 induced changes in rigidity of human natural killer cells. 128 98

The effect of human recombinant tumor necrosis factor (TNF)-alpha on enzymes of gluconeogenesis in the rat was investigated by determining the activity of glucose 6-phosphatase, fructose 1,6-diphosphatase (FDP), and phosphoenolpyruvate carboxykinase in the liver and kidney of fed and fasted rats. The activity of transaldolase in the pentose phosphate pathway was also measured. Starvation of rats for 24 hr resulted in a 1.6- to 3.1-fold increase in liver and kidney glucose 6-phosphatase and phosphoenolpyruvate carboxykinase (P less than or equal to 0.05), a decrease in liver and kidney FDP (P less than 0.002), and an increase in liver and kidney transaldolase (P = 0.0001). Injection of 50 and 100 micrograms/kg/day of TNF for 5 days resulted in a significant (P less than or equal to 0.03) decrease in kidney FDP only. Injection of 100 micrograms/kg/day of TNF for 5 days with a 24-hr fast on Day 5 resulted in a significant (P = 0.04) increase in liver transaldolase, and a significant decrease in kidney FDP and phosphoenolpyruvate carboxykinase. Comparison of the enzyme activities of rats injected with 100 micrograms/kg/day of TNF for 5 days with those of their pair-fed control partners revealed additionally a significant decrease in glucose 6-phosphatase in the liver (P less than 0.001). It is concluded that TNF administration in the rat has different effects on the enzymes of gluconeogenesis in the liver and kidney, and these effects differ from those seen in starved or tumor-bearing rats.
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PMID:Effect of tumor necrosis factor on enzymes of gluconeogenesis in the rat. 130 99

Insulin-secreting cells (RINm5F) have successfully been grown on a large scale on poly-L-lysine coated-polystyrene microcarriers, providing a high cell number in a restricted volume under conditions that respect the metabolic integrity of these anchorage-dependent cells. The energetic metabolism of the perfused cells has been followed non-invasively by phosphorus-31 nuclear magnetic resonance spectroscopy. Glucose starvation induced a rapid decrease in nucleoside triphosphates (mainly ATP) pools, correlated with an increase in Pi level. The initial ATP level was rapidly recovered when the cells were refed with glucose or with mannose, but not with galactose, even after 2 h of perfusion. These differential effects of hexoses on energetic metabolism might be related to their various insulin-release actions on tumor islet cells.
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PMID:Energetic metabolism of glucose, mannose and galactose in glucose-starved rat insulinoma cells anchored on microcarrier beads. A phosphorus-31 NMR study. 133 3

Ischemic stress of cells within solid tumors arises from inadequate perfusion of regions of the tumor and results in microenvironments which are hypoxic and deficient in nutrient delivery and waste product removal. Stressed cells within these microenvironments show growth inhibition and synthesize unique sets of proteins referred to as glucose and oxygen regulated proteins (GRPs and ORPs respectively). The commonality of proteins induced by glucose-starvation and hypoxia has not been proven. To this end, ORPs were induced in Chinese hamster ovary cells in the presence of high glucose concentration in the media and ORP 80 isolated from two dimension gels. Eleven tryptic peptides of the 80 kDa ORP were sequenced and found to be identical to GRP 78 sequences. The data demonstrate that GRP 78 and ORP 80 have the same primary amino acid sequence and suggest that glucose-starvation and hypoxia can induce the same cellular responses.
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PMID:Oxygen regulated 80 kDa protein and glucose regulated 78kDa protein are identical. 171 95

Although blood flow is central to systemic metabolism, little is known about the effect of tumor on the perfusion of host tissues. This study evaluated the effects of a methylcholanthrene-induced sarcoma on blood flow to intra-abdominal organs and skeletal muscle of Fischer-344 rats anesthetized with pentobarbital sodium. Animals were studied by aortic injection of radiolabeled microspheres when the tumors reached 20% of body weight. Total-organ arterial flows in spleen, liver, small intestine, and pancreas were each increased to 50-150% in tumor bearers relative to controls (P less than 0.05). Portal venous flow and flow per gram to hindlimb muscle were 60 +/- 20 and 300 +/- 100% greater, respectively, in tumor-bearing animals (P less than 0.005). This study shows that tumor growth can be associated with large changes in organ flow and distribution of cardiac output. The increase in skeletal muscle flow in the tumor bearers, which lost normal tissue weight relative to pair-fed controls (P less than 0.05), is in marked contrast to decreased muscle flow previously observed in simple starvation.
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PMID:Organ blood flow in Fischer-344 rats bearing MCA-induced sarcoma. 176 62

Previous investigations in our laboratory have demonstrated that both acute host starvation and polyamine depletion by means of the irreversible ODC-inhibitor (ODC = ornithine-decarboxylase) fluoro-methylornithine (DFMO) lead to pronounced growth retardation of rapidly proliferating tumors. The aim of this investigation was to elucidate how these different interventions affect cell kinetics and cell cycle phases in vivo. Adult nongrowing mice (C57Bl/J) bearing a poorly differentiated rapidly growing methylcholanthrene induced sarcoma were used. Combined measurements of bromodeoxyuridine incorporation into DNA and flow cytometric techniques were used. Starvation and DFMO treatment resulted in a prolonged cell cycle transit compared to freely fed animals. Tumor cells from DFMO-treated mice demonstrated an increased time for DNA synthesis and a relatively larger accumulation of cells in the G2M phase, whereas tumor cells from starved animals were accumulated in the G0G1 phase. The fractional cell loss of tumor cell during proliferation was calculated to be around 18% higher in DFMO-treated animals compared to starved and freely fed tumor-bearing mice. This study demonstrates that different mechanisms are involved in tumor growth suppression from substrate deficiency (starvation) and from inhibition of polyamine synthesis.
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PMID:Tumor cytokinetic effects of acute starvation versus polyamine depletion in tumor-bearing mice. 178 32

Current evidence suggests that DNA fragmentation plays an integral role in mediating cytotoxicity that results from thymidine nucleotide depletion ("thymineless death"). Recently, Ayusawa et al. [Mutat. Res. 200:221-230 (1988)] reported that dTMP starvation induces cellular processes that result in the release of 50-200-kilobase (kb) DNA fragments in FM3A cells, as detected by pulsed field gel electrophoresis (PFGE). The present study was undertaken to determine whether a similar DNA fragmentation process occurs in a human cell line in response to fluoropyrimidine treatment and, if so, to quantitate this process. When human colorectal tumor (HT29) cells were treated with 100 nm 5-fluorodeoxyuridine (FdUrd), this regimen induced the formation of high molecular weight DNA fragments, which were analyzed using three different PFGE protocols. Field inversion PFGE revealed that, in contrast to the discrete size range reported for FM3A cells, FdUrd-induced fragments in HT29 cells were broadly distributed from about 50 kb to sizes beyond the resolution of the field inversion mode (i.e., greater than 600 kb). Analysis of these same samples by contour-clamped homogeneous electric field PFGE showed that the bulk of these fragments migrated in the 1-5-megabase region. In contrast, fragments from DNA that was broken randomly by gamma-radiation appeared to be primarily in a zone corresponding to approximately 5-10 megabases. Equitoxic FdUrd and radiation treatments (100 nM FdUrd for 48 hr versus 10-Gy gamma-radiation) each increased the fraction of DNA entering the gel from about 0.07-0.09 (untreated cells) to about 0.22-0.25. To a first approximation, the time course and quantity of DNA fragmentation induced by 100 nM FdUrd appeared to correlate with the loss of clonogenicity within the 48-hr period analyzed. These findings suggest that the processes responsible for DNA fragmentation in response to a thymineless state may be different in FM3A and HT29 cells, that in both cases the breaks caused do not appear to be located randomly with respect to the entire genome, and that these processes may be related to the chain of events by which temporary dTMP starvation is made into a lethal insult.
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PMID:Induction of megabase DNA fragments by 5-fluorodeoxyuridine in human colorectal tumor (HT29) cells. 182 40

Ornithine decarboxylase (ODC) and S-adenosylmethionine decarboxylase activity (SAMD) were measured in tumour tissue in mice during periods of starvation (24 h) and refeeding. Starvation led to a 60% reduction in tumour ODC activity. Refeeding normalised the activity within 4 h. Restitution in ODC activity, representing de novo enzyme synthesis, preceded DNA resynthesis. SAMD activity continued to fall along the increase in ODC activity during refeeding, while difluoro-methyl-ornithine (DFMO) caused a compensatory increase in SAMD activity as expected. A fall and regain in ODC activity was associated with inhibition and regrowth of the tumour. Starvation-refeeding was not related to any decrease in tumour polyamine concentrations, while systemic DFMO blockade was. Glucose stimulated ODC when refed orally, but not when given systemically. Tumour ODC activity was not decreased in refed mice by anti-insulin, a procedure that antagonised insulin's bioactivity. Exogenous insulin did not stimulate tumour ODC activity. Our results suggest that gastrointestinal metabolism of carbohydrates stimulates the release of a factor, which initiates both ODC activity and DNA synthesis in tumour cells. This factor was not insulin.
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PMID:Ornithine decarboxylase activity in mouse tumour tissue in response to refeeding and diet components. 183

Induction of P-glycoprotein-related multi-drug-resistance (MDR) has been shown in normal and malignant tissues to result from environmental stresses such as heat shock, exposure to carcinogens or X-ray irradiation. To identify conditions under which MDR is enhanced during anti-neoplastic chemotherapy, a cell line showing low-level intrinsic MDR was investigated. In the pleural mesothelioma cell line, PXF1118, less than 1% of cells expressed P-glycoprotein (P-gp), as shown by immunocytochemical staining with monoclonal antibody (MAb) MRK16. Exposure of PXF1118 to vincristine, vindesine, vinblastine or doxorubicin for 2-3 weeks led to an increase in the MDR cell fraction of up to 15-28% during 2 to 3 weeks. For doxorubicin and vindesine, dose-dependence was observed: drug concentrations not capable of eliciting cytotoxicity failed to induce significant P-gp expression. Nutrient starvation in aging medium, exposure to activated cyclophosphamide (even at high concentrations) or cisplatin caused only negligible MDR induction. After exposure to vindesine for 6 weeks, tumor colonies exhibited highly enhanced resistance to Vinca alkaloids, doxorubicin, etoposide and dacarbacine, whereas their sensitivity to mitomycin, activated cyclophosphamide or cisplatin remained unchanged. As determined by [3H]-thymidine uptake and proliferation antigen expression, induction of MDR phenotype was observed at minimal proliferative activity with no change in cell count during exposure to anti-cancer drugs, thus suggesting that the drug treatments changed the phenotype of the cells rather than selecting for a resistant sub-population. In addition, changes in cell differentiation were observed during MDR induction. Induction of P-gp during exposure to anti-cancer drugs thus provides a model for MDR development during initially successful chemotherapy. of P-gp during exposure to anti-cancer drugs thus provides
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PMID:Induction of multiple-drug resistance during anti-neoplastic chemotherapy in vitro. 191 65

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