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)

Serum-cultured rat W256 carcinosarcoma cells of the monocytoid origin undergo rapid apoptosis in response to the lipoxygenase inhibitor NDGA (nordihydroguaiaretic acid). Exogenous arachidonic acid (AA), in a time- and dose-dependent fashion, suppressed NDGA-induced W256 cell apoptosis as well as DNA fragmentation, with the maximal effect observed at approximately 25 microM. Mobilization of endogenous AA by calcium ionophore A23187 provided an even stronger and longer-lasting protection against NDGA-caused cell death. The A23187 effect on AA release as well as W256 cell death can be blocked by bromophenacyl bromide, thus suggesting involvement of phospholipase A2 activation. Serum withdrawal similarly caused W256 cells to undergo typical apoptosis, which was not rescued by several growth factors commonly found in serum. However, exogenous AA suppressed serum starvation-induced W256 cell apoptosis and significantly extended cell survival in a dose-dependent manner. Lipoxygenase products, 12(S)- and 15(S)-, but not 5(S)-hydroxyeicosatetraenoic acid (HETE), in a dose-dependent fashion, also prevented both NDGA- and serum-starvation-induced W256 cell apoptosis. AA appears to suppress W256 cell apoptosis via distinct signaling pathway(s) since it does not prevent cell death triggered by several other inducers. Examination of a panel of polyunsaturated fatty acids revealed that alpha-linolenic and linoleic acid can also suppress NDGA-induced W256 cell apoptosis. Our data suggest that AA and other polyunsaturated fatty acids and/or their metabolites may enhance tumor growth not only by promoting cell proliferation but also by suppressing apoptosis.
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PMID:Suppression of W256 carcinosarcoma cell apoptosis by arachidonic acid and other polyunsaturated fatty acids. 937 43

The child with a malignancy frequently will have associated cachexia with significant weight loss and malnutrition. The reasons for this are multifactorial and may be related directly to the tumor, such as increased metabolic rate, circulating peptides leading to anorexia, and decreased intake due to poor appetite or gut involvement. There appears to be other reasons involved, including increased whole body protein breakdown, increased lipolysis, and increased gluconeogenesis. Release of certain cytokines, such as tumor necrosis factor, interleukin-1, interleukin-6, and others may increase the cancer cachexia. Malnutrition in these children leads to intolerance of chemotherapy and radiotherapy as well as increased local and systemic infections. For many years, oncologists were hesitant to provide nutrition support to cancer patients for fear that tumor growth would be enhanced. Pediatric oncologists learned early that starvation plays no positive role in cancer therapy. Adjunctive nutritional support, either enterally or parenterally, supports the patient during therapy with surgery, chemotherapy, or radiation. Many studies have now shown that the nutritionally replete patient tolerates therapy better and in some pediatric malignancies may enhance survival.
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PMID:Nutritional support of the pediatric oncology patient. 943 98

AK-5 is a highly immunogenic tumor which stimulates multiple arms of the host immune system. Tumor cells when transplanted subcutaneously grow as solid tumors which are regressed in about 70% of animals, whereas 100% i.p. transplanted animals succumb to the tumor growth. In the present study we demonstrate shedding of an antigen by AK-5 cells when subjected to stress such as low cell number transplantation in vivo, heat shock and serum starvation in vitro. The shed antigen is able to neutralize antitumor antibody in a complement fixation assay. The antigen is also detected in the cell-free ascitic fluid. The size of the shed antigen as recognized by anti-AK-5 antibody is approximately 45 kDa. We have also studied some of the biochemical characteristics of the purified shed antigen. These observations suggest a positive role for the AK-5 antigen in immune recognition which is lost in i.p. transplanted tumor cells due to the shedding of the antigen, thereby escaping the immune invasion.
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PMID:Stress induced shedding of a tumor antigen by a rat histiocytic cell line AK-5: a possible mechanism of immune evasion. 967 90

A new strategy in anticancer gene therapy uses stress-responsive cellular promoters that offer the advantage of enhanced gene expression in a variety of tumors. Although the feasibility of their selective expression has been demonstrated, functional evidence of their ability to activate therapeutic agents within the tumor environment leading to tumor eradication has not been established. Glucose deprivation, chronic anoxia, and acidic pH known to persist in poorly vascularized solid tumors strongly induce the transcription of the glucose-regulated protein 78 (grp78) gene, which encodes an Mr 78,000 stress-inducible protein. In this report, we tested directly the efficacy of the grp78 promoter in a retroviral system to drive the expression of the herpes simplex virus-thymidine kinase (HSVtk) suicide gene, using a murine fibrosarcoma model, in the context of their syngeneic, immunocompetent hosts. Our results showed that under glucose starvation conditions, the expression of HSVTK was enhanced in tumor cells where the HSVtk gene was driven by the internal grp78 promoter, in contrast to the Moloney murine leukemia virus long terminal repeat, where suppression was observed. We further demonstrated that in vivo, HSVTK expression was elevated to much higher levels inside tumors when driven by the internal grp78 promoter, resulting in complete eradication of sizable tumor mass, with no recurrence of tumor growth. Our study suggests that the glucose starvation-inducible grp78 promoter could be useful for enhanced expression of a variety of therapeutic agents within the solid tumor environment.
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PMID:Use of the glucose starvation-inducible glucose-regulated protein 78 promoter in suicide gene therapy of murine fibrosarcoma. 1039 51

Could a rational, hypothesis-driven and well-tolerated therapy drive tumor progression? This scenario can be foreseen for antiangiogenic therapy, despite it is one of the most elegant anticancer strategies. Antiangiogenic agents inhibit growth of endothelial cells resulting in tumor hypoxia and starvation which in turn inhibit tumor growth. On the other hand, it is known that hypoxia selects for a highly aggressive and metastatic cancer and is associated with unfavorable prognosis. This review attempts to reconcile these opposite notions and to revisit the thesis that antiangiogenic therapy is "resistant to resistance". The latter logical paradigm is based on the notion that endothelial cells cannot become drug resistant. Although endothelial cells may not acquire drug-resistance, cancer cells can acquire hypoxia-resistance which is also associated with the resistance to growth arrest and apoptosis as well as high metastatic potentials. Hypoxia-inducible factor (HIF-1) renders cells capable of surviving hypoxia and stimulating endothelial growth. Disruption of the HIF-1 pathway inhibits tumor growth, indicating HIF-1 as a potential anticancer target. Furthermore, inhibition of HIF-1 is a mechanism-based antiangiogenic strategy because it is the HIF-mediated response that drives tumor angiogenesis. Pharmacological approaches to HIF-1 inhibition are discussed.
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PMID:Hypoxia-inducible factor: Achilles' heel of antiangiogenic cancer therapy (review). 1144 36

Different processing of the leaves of the tea plant Camellia sinensis yields green or black tea, the subject of numerous investigations on the preventive effects on chronic degenerative diseases. The tea polyphenols, in particular (-)-epigallocatechin gallate (EGCG) were found to account for most of the protective effects. Since the concentration of EGCG is 5 times higher in green than in black tea, it is assumed that green tea possesses a greater preventive potential. Protection against cancer and cardiovascular diseases are the most important biomedical effects. In experimental models the preventive activity of tea is well documented for tumors at many organ sites. In humans, tea was reported to be protective against tumors of the lung, the gastrointestinal tract and the liver. Tea polyphenols, especially EGCG, were shown to exert cancer-protective activity by the following mechanisms: they inhibit the metabolic activation of carcinogens and induce at the same time detoxifying enzymes. They inhibit signaling pathways controlling cell proliferation and tumor growth such as protein kinase C and the release of tumor necrose factor-alpha from cells. Tea polyphenols reactivate processes which are impaired in tumor cells, such as the programmed cell death and the tumorsuppressor gene p53. Finally, tea polyphenols can also block angiogenesis leading to a starvation of the tumor. By inactivation of proteolytic enzymes they inhibit the development of metastases. This short review summarizes relevant recent findings on the protective effects of green tea constituents.
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PMID:[Cancer prevention with green tea: reality and wishful thinking]. 1199 65

A 48-h starvation period resulted in a great increase in muscle proteolysis-as measured following the release of tyrosine into the medium-in incubated isolated rat extensor digitorum longus (EDL) muscles. We have quantified the contribution of the different proteolytic systems to the increased protein degradation and observed a considerable activation in the ATP-dependent proteolytic (60%) and in the calcium-dependent (125%) systems, while no increases were observed in lysosomal proteolysis. The addition of 10 mM leucine to the incubation medium did not result in any changes in either total proteolytic rate or the activity rates of any of the different systems studied. In addition, the presence of the amino acid did not influence the levels of mRNA for the different genes studied-ubiquitin, C8 proteasome subunit, E2 conjugating enzyme, m-calpain, and cathepsin B. In a similar way, as observed during starvation, tumor growth resulted in increased protein degradation in incubated isolated EDL muscles from animals bearing the Yoshida AH-130 ascites hepatoma. The increased rate of protein degradation affected all the proteolytic systems studied: ATP- and calcium-dependent and lysosomal. Finally, leucine addition (10 mM), although not able to revert the increased proteolytic rate, resulted in a decrease in the gene expression for ubiquitin, C8 proteasome subunit and cathepsin B.
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PMID:Branched-chain amino acids: a role in skeletal muscle proteolysis in catabolic states? 1201 23

As tumors grow and invade beyond their homeostatic limits, the tumor cells are subjected to insufficient nutrient and oxygen supplies because of excessive demand for nutrition and oxygen, and insufficient vascularization. We therefore hypothesized that tolerance to nutrient deprivation as well as angiogenesis may be critical in some malignancies, including pancreatic cancers, which are seen to be a hypovascular tumor. In this study, we assessed the effect of AMP-activated protein kinase (AMPK), which plays a major role in protecting cells from metabolic stresses, on tumor biology under nutrient-deprived condition. Whereas hepatic cancer cells had mostly died within 48 h during glucose deprivation, most pancreatic cancer cells survived more than 48 h. The tolerance to glucose deprivation tended to correlate with the cells level of expression of AMPK alpha1 and alpha2. The introduction of AMPK antisense RNA expression vectors into pancreas cancer cell lines, PANC-1 and AsPC-1, significantly diminished their tolerance to glucose deprivation, and the stable transfection of AMPK antisense into PANC-1 cells inhibited tumor growth in nude mice. These findings indicate that AMPK expression contributes to tolerance to nutrient starvation in cancer cells. We propose AMPK as a new target for therapeutic strategies to suppress tumor growth and invasion.
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PMID:Critical roles of AMP-activated protein kinase in constitutive tolerance of cancer cells to nutrient deprivation and tumor formation. 1220 20

Animals and humans respond to starvation with a complex neuroendocrine response that ultimately leads to an increase in appetite, a sparing of lean body mass (LBM) and burning of fat, and an overall decrease in basal metabolic rate. In contrast, cachexia is a pathological state of malnutrition associated with many infections and chronic diseases, wherein appetite is diminished concomitant with an increase in metabolic rate, and a relative wasting of LBM. In previous studies, we demonstrated that anorexia and weight loss in mouse cachexia models induced by lipopolysaccharide (LPS) administration and by tumor growth are ameliorated by central melanocortin-4 (MC4) receptor (MC4-R) blockade. In contrast to the results seen with MC4 blockade, melanocortin-3 (MC3) receptor knockout (MC3-RKO) mice show illness-induced anorexia and weight loss with LPS administration and with cytokine administration, and they have similar decreases in mobility. Both MC3-RKOs and MC4-RKOs have an intact corticosterone response and fever with LPS injection. In tumor models, we show that MC4-RKO mice resist the loss of LBM brought about by tumor growth, whereas MC3-RKO animals show enhanced tissue wasting. These data underscore the importance of central melanocortin signaling in weight homeostasis and demonstrate differential effects of MC3-R and MC4-R blockade on the development of cachexia.
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PMID:Differential role of melanocortin receptor subtypes in cachexia. 1263 36

The oligopeptide transporter PEPT1 is predominantly expressed in the brush-border membranes of small intestinal epithelial cells, where it plays pivotal roles in the efficient absorption of di-/tripeptides. PEPT1 has enormous potential as an oral drug delivery target, because it also mediates the intestinal absorption of peptide-mimetic and nonpeptide substrates. We demonstrated that the peptide derivation of amino acid-related drugs is applicable to improve their intestinal absorption. We have found that oligopeptide transport activity is also expressed in cancer cell lines. The tissue distribution of bestatin was significantly increased in solid tumors that overexpress PEPT1 in nude mice. Orally administered bestatin strongly suppressed tumor growth. These results provided the first demonstration of the tumor-selective delivery of a drug by specific transport activity. The absolute degree of PEPT1 mRNA expression in the small intestine was determined using real-time PCR in rats. Starvation of the animals increased the mRNA expression level profoundly in the upper small intestine. The longitudinal expression pattern was well correlated with the intestinal transport of cefadroxil in rats. We constructed a recombinant adenovirus vector encoding PEPT1 cDNA. Heterologous expression of PEPT1 in the liver was successfully achieved by simple intvavenous. Administration of the vector, resulting in increased liver distribution of [3H] carnosine. In situ perfusion of the brain with the vector doubled the brain distribution of cefadroxil. Heterologous expression of the drug transporter in vivo could be a useful approach for drug delivery.
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PMID:[Active drug delivery by heterologous expression of membrane transporters]. 1282 85


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