Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Mouse sarcoma ascites cells do not utilize fully their capacity for protein synthesis. A considerable portion of their ribosomes occur as inactive monomers. Also, a substantial amount of the cellular mRNA is in the form of ribonucleoprotein particles that sediment in the 20-70S range. This is indicated both by measurements of poly(A) content and by translation of the RNA in cell-free systems. The population of polypeptides synthesized under the direction of the RNA from these particles is less heterogeneous than that directed by RNA from polysomes. The mRNAs for some polypeptides are present predominantly in the small particles. Others are distributed to varying degrees between particles and polysomes. Incubation of the cells with cycloheximide drives most of the ribosomal monomers and a portion of the untranslated mRNA into polysomes. Some of the mRNAs that were predominantly in the inactive fraction seem to be refractory to this treatment. Particles released from polysomes in cells subjected to starvation are quite effective in promoting polypeptide synthesis in a reticulocyte cell-free system and cause the synthesis of a population of polypeptides similar to that coded by the polysomal RNA. The particles from cells exposed to cycloheximide are inactive but yield active RNA upon deproteinization. It is suggested that some mRNA species are maintained in an inactive state in the cell by a component of the nucleoprotein complex.
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PMID:Inactive mRNA-protein complexes from mouse sarcoma-180 ascites cells. 29 64

The insulin receptors in normal and transformed lines of mouse Balb/3t3 fibroblasts have been studied. In the normal fibroblasts, the binding of insulin was low in growing cells and increased 2-9 fold in confluent stationary cells. Insulin binding was increased whether growth arrest was due to contact inhibition of growth or serum starvation. When serum-starved cells were stimulated to grow by the addition of fresh serum, insulin binding declined. In cells transformed by simian virus 40, Kirsten, Moloney, and Harvey sarcoma viruses, methylcholanthrene, X rays, or spontaneously, the binding was low, in the same range as growing normal cells. In simian virus 40-transformed cells, insulin binding increased 4 fold as the cells reached higher densities in culture. No relationship to changes in cell size was found. The differences in binding were due to changes in the concentration of the receptors, without changes in their affinity for the hormone.
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PMID:Insulin receptors in normal and transformed fibroblasts: relationship to growth and transformation. 95 96

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

Exposure to oxygen deprivation in vitro has been reported to cause drug resistance in CHO cells (Rice et al., 1986; PNAS 83, 5978) and enhancement of experimental metastatic (colonisation) ability of murine tumour cells (Young et al., 1988; PNAS 85, 9533). Both these studies also demonstrated the induction of a subpopulation of cells with excess DNA content. Since the micromilieu in tumours results in exposure of the tumour cells to conditions of acid pH and nutrient deprivation, as well as hypoxia, we have examined the effect of exposure to acidosis (pH 6.5) and glucose starvation on drug resistance, cellular DNA content and the experimental metastatic ability of KHT sarcoma and B16F1 melanoma cells. Cells were exposed to these conditions for 24 and 48 h and tested for resistance to methotrexate (MTX) or experimental metastatic ability either immediately following these exposures or after 24 or 48 h of recovery in normal growth medium. Both cell lines demonstrated an enhancement of colonisation potential, which was most marked when cells were injected after 48 h of exposure followed by a 24 or 48 h recovery period. Flow cytometric analysis demonstrated an increase in the fraction of KHT cells with excess DNA following both glucose starvation and acidosis we observed only a small increase in MTX resistance following acidic exposure of cells and no change following glucose starvation. Since both acidosis and glucose starvation are known to induce glucose regulated proteins (grp), a subset of the stress protein family, we studied the effect of treatment with another known inducer, 2-deoxyglucose. We found that this agent affected the metastatic efficiency of KHT cells in a manner similar to that observed following exposure to glucose starvation and acidosis. However, further studies are required to establish what role, if any, grp play in this effect. In conclusion this study shows that transient exposure of murine tumour cells to an acidic or glucose deprived environment can cause progression in terms of metastatic potential.
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PMID:Glucose starvation and acidosis: effect on experimental metastatic potential, DNA content and MTX resistance of murine tumour cells. 191 Dec 14

The metabolic responses associated with the tumor-bearing state, as compared to states of sepsis and prolonged starvation, were examined. Tumor-bearing rats manifested significant elevation of triglycerides, significant reduction of glucose and insulin levels, significantly increased plasma skeletal muscle proteolysis-inducing activity, and an unchanged hepatic protein synthetic activity compared to control rats. Prolonged starvation produced an adaptation characterized by significant hypoglycemia and hypoinsulinemia, reduced hepatic protein synthesis, and increased peripheral protolysis compared to controls. Septic animals had glucose, insulin, and lipid levels similar to control animals but had increased hepatic protein synthesis. Each state manifested its own unique metabolic response compared to controls. It appears that the metabolic consequences of cancer in this sarcoma rat model is different than septic and prolonged starvation states.
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PMID:Tumor-associated metabolism in the rat is a unique physiologic entity. 388 27

Fixation of (131)I-serum albumin by Ehrlich ascites tumor cells in suspensions and sarcoma S-180 monolayers was measured under experimental conditions. Anaerobic incubation and inhibitors of the oxidative metabolism critically restricted the range of glucose concentrations capable of supporting cell life; in glucose concentrations higher than 10(-2)M, Ehrlich cells suffered from their own acid production; in concentrations 10(-2)M, lower than they underwent damage by starvation. Both types of damage were accompanied by increased albumin fixation unrelated to pinocytosis. Different procedures recommended to enhance the uptake of infectious viral RNA by animal cells in culture were tested for their ability to increase albumin uptake. They enhanced the penetration of both albumin and vital dyes and decreased the viability of cell populations. Their effect, therefore, is related to cell damage. It was postulated that reversible damage to cells favors RNA infection by leading to abnormal uptake processes and by decreasing intracellular digestion. This abnormal uptake is different from pinocytosis and also from the massive fixation of albumin to dead cells. The latter phenomenon is due to adsorption by intracellular sites exposed by disruption of the cell membrane. Polycations are able to induce all three forms of fixation depending on the experimental conditions.
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PMID:Studies on protein uptake by isolated tumor cells. 3. Apparent stimulations due to pH, hypertonicity, polycations, or dehydration and their relation to the enhanced penetration of infectious nucleic acids. 603 87

The importance of decreased food intake as the mechanism behind altered protein metabolism in skeletal muscle in cancer was evaluated. A methylcholanthrene-induced sarcoma (MCG 101) transplanted in weight-stable and nongrowing mice (C57BL/6J) was used as the tumor-animal model. Three study groups with appropriate control groups were used: sarcoma-bearing mice; pair-fed mice; and starved mice. The synthesis of myofibrillar and sarcoplasmic proteins was decreased in sarcoma-bearing mice. This was correlated to decreased content of RNA in the muscles and caused a net loss of muscle tissue was measured by dry weight of skeletal muscles. The incorporation rate of amino acids into myofibrillar and sarcoplasmic proteins was decreased to the same extent in the pair-fed mice as that in the sarcoma-bearing mice. This probably reflected decreased protein synthesis, since the radioactivity (dpm/mg) did not differ significantly in the crude transfer RNA fraction between the groups. Separation of soluble proteins from muscle tissue by means of ion-exchange chromatography showed that the pattern of decreased protein synthesis was not tumor specific when compared to muscle affected by starvation. The decrease in protein synthesis was more or less selective, since the synthesis of basic proteins was considerably decreased and was influenced more than were neutral and acidic proteins in both cancer and starvation. Anorexia of a tumor-bearing host is a sufficient trigger to induce decreased protein synthesis in skeletal muscles, but other factors may also be of quantitative importance.
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PMID:Evaluation of anorexia as the cause of altered protein synthesis in skeletal muscles from nongrowing mice with sarcoma. 616 32

The increased rate of glucose uptake found in cells transformed by Rous sarcoma virus was shown to be enhanced relative to the changes in uptake induced in nontransformed cells by deprivation of glucose (deprivation derepression). Glucose-specific uptake sites were distinguished from glucose-galactose sites in nontransformed cells, and the capacities for glucose uptake and for galactose uptake were increased to about the same extent by the exclusion of glucose from the cell culture medium. Deprivation derepression occurred without a requirement for new RNA or protein synthesis, suggesting that preexisting inactivate uptake sites were activated. Deprivation derepression could be mimicked by the treatment of cells with adenosine triphosphatase activators, and adenosine triphosphate levels were reduced in glucose-deprived cells and in cells treated with adenosine triphosphatase activators. Cells transformed by the Bryan strain of Rous sarcoma virus were unresponsive to addition of high concentrations of glucose, to glucose starvation, or to treatment with adenosine triphosphatase activators, and the relative capacity for glucose uptake in these transformed cells was enhanced much more than the capacity of galactose uptake. It was concluded that cells infected by the Bryan strain of rous sarcoma virus in the process of transformation selectively synthesize more sites specific for glucose uptake. Lower levels of adenosine triphosphate found in transformed cells possibly contribute to a chronic derepression of uptake sites.
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PMID:Increased glucose uptake capacity of Rous-transformed cells and the relevance of deprivation derepression. 626 Mar 48

This study was designed to ascertain whether the overall availability of whole-body lipids and nitrogen is a limiting factor for survival in tumor-bearing mice suffering from anorexia and cachexia. Three-month-old nongrowing mice (C57BL/6J) were given s.c. transplants of a methylcholanthrene-induced sarcoma. Freely fed, starved, and pair-fed animals were used. Body and lipid composition, tumor growth, and survival time were measured. Freely fed sarcoma-bearing mice died with profoundly altered body composition. This was not explained by the anorexia assessed in pair-feeding experiments. Starvation had caused a more severe depletion in body composition in both tumor-bearing and nontumor-bearing animals than the tumor alone did in freely fed tumor-bearing mice. Freely fed tumor-bearing animals had normal proportions of whole-body triglycerides, cholesterol, and polar lipids, but they lost palmitic acid quantitatively more than any other fatty acid. It is unlikely that any single fatty acid became limiting during tumor growth. The results show that the overall availability of lipids, nitrogen, and glucose precursors is not a limiting factor for survival in experimental tumor cachexia. Other factors considered to be more likely as determining factors for the death of tumor-bearing animals are discussed.
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PMID:Role of whole-body lipids and nitrogen as limiting factors for survival in tumor-bearing mice with anorexia and cachexia. 657 17


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