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 sensitivity and resistance of six human melanoma cell lines to gamma-interferon (gamma-IFN) and tumour necrosis factor-alpha (TNF-alpha) have been examined. Amelanotic cell lines were more sensitive to gamma-IFN and TNF-alpha than melanotic cells. The cytotoxicity of gamma-IFN and TNF-alpha could be reversed in all cells by the addition of L- or D-tryptophan to the culture medium. Melanoma cells resistant to gamma-IFN excrete calcium activated neutral protease (CANP) and as a consequence, make L-tryptophan available by the hydrolysis of serum proteins in the culture medium. Resistance to gamma-IFN could be reversed by the addition of specific CANP inhibitor, whereas gamma-IFN-sensitive strains became more resistant with the addition of CANP to the culture medium. It has been confirmed that gamma-IFN induces indoleamine 2,3-dioxygenase in melanoma cells. This enzyme utilizes the superoxide anion (O2-) as a substrate for the oxidation of either L- or D-tryptophan to N-formylkynurenic acid leading to cell death. The induction of this degradative pathway for L-tryptophan kills cells by starvation of this essential and relatively scarce amino acid. TNF-alpha induces manganese-containing superoxide dismutase (MnSOD) which also uses O2- to produce cytotoxic concentrations of hydrogen peroxide. Therefore, it can be concluded that the cytotoxicity of both gamma-IFN and TNF-alpha depends on the availability of L-tryptophan as the substrate for the removal of O2- via indoleamine 2,3-dioxygenase.
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PMID:Tryptophan protects human melanoma cells against gamma-interferon and tumour necrosis factor-alpha: a unifying mechanism of action. 166 25

Studies of various established human bladder and renal carcinoma cell lines cultured in vitro demonstrated the presence of specific, saturable, high affinity binding sites for 125I-labeled human interferon Beta ser IFN-beta ser). This recombinant produced interferon labeled with approximately one atom of 125I/molecule of IFN expressed minimal or no loss of antiviral activity. A single class of binding sites (1000-2000/cell) with an affinity constant of 10(10)-10(11) L/M was measured at 4 degrees C for cells exhibiting widely different sensitivity to the antiproliferative effect of IFN-beta ser. Major fluctuations in the binding of 125I-labeled IFN-beta ser to cellular receptors were observed during in vitro proliferation of four of five cell lines examined. A significant decrease (P less than 0.001) in specific binding was observed 48 h after cultures were established. Cell cycle analysis suggested that within the first 24 h and in the very late log and stationary phase of growth of ACHN (human renal carcinoma) cells, variations in the binding of 125I-labeled IFN-beta ser were partially attributable to binding fluctuations during the mitotic cycle. The 2- to 3-fold decline 24 h following plating of ACHN cells corresponded to a 70% decrease in the number of cells in G0-G1. T24 (human transitional cell carcinoma) and ACHN cells, synchronized by serum starvation, demonstrated increased binding of 125I-labeled IFN-beta ser 4-16 h following serum replenishment. This increase in receptor binding occurred prior to the onset of DNA and protein synthesis and was followed by a decline immediately prior to cell division. Binding site analysis indicated that the increased binding prior to DNA synthesis was due to a 5- to 6-fold increase in receptor affinity for the radiolabeled ligand. After an initial 40% decline in receptors per cell following serum stimulation, receptor concentration remained essentially unchanged. Induction of 2',5'-oligoadenylate synthetase in ACHN cells and antiproliferative activity in RT112, RT4, T24 (human transitional cell carcinoma), and ACHN cells by IFN-beta ser decreased significantly 48 h following plating. These changes in the biological activity of this interferon corresponded to growth related fluctuations in the IFN-beta ser binding.
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PMID:Variation in the binding of 125I-labeled interferon-beta ser to cellular receptors during growth of human renal and bladder carcinoma cells in vitro. 295 45

Interferon gamma (IFN gamma) reduced 125I-transferrin binding to WISH cells which are sensitive to its antiproliferative effect. IFN gamma did not affect transferrin binding to Daudi cells or phytohemagglutinin-stimulated human lymphocytes, neither of which respond to its antigrowth action. Scatchard analyses of the equilibrium binding of 125I-transferrin to WISH cells exposed to IFN gamma revealed a decrease in the number of cell surface receptors but no change in the apparent association constant compared with control cells. When 125I-transferrin binding was measured using detergent-extracted cells, the IFN-induced reduction of binding was smaller than with intact cells. This suggests that in WISH cells, IFN gamma not only reduced the total number of transferrin receptors, but also modified the process of receptor internalization and recycling. Labeling of newly synthesized receptors with [35S]-methionine indicated that a reduction in the biosynthesis might account for the decrease in the total number of transferrin receptors in IFN gamma-treated cells. Our results suggest that the antigrowth effect of IFN gamma is at least partly due to its inhibitory action on transferrin receptor expression leading to iron starvation.
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PMID:Reduction of transferrin receptor expression by interferon gamma in a human cell line sensitive to its antiproliferative effect. 313 21

The role of the IFN-induced enzyme 2' - 5' oligo (A) synthetase in the regulation of cell growth was analyzed by transfecting its reaction product into cells in the G1 and S phases of the cell cycle. Using the calcium phosphate transfection method, we found that the oligonucleotide was very stable compared to the levels reported to be induced by IFN. Under these circumstances, exponentially growing cells were blocked in the S phase as expected from previous results from studies on IFN treatment. In contrast, cells synchronized by serum starvation and readdition of serum were blocked in the cell cycle phase, where they resided when transfected. Precipitated oligonucleotide had drastic effects with degradation of rRNA and c-myc mRNA, in contrast to IFN-treated cultures where such effects were not detectable. 2' - 5' oligo (A) synthetase activity started to increase 6 hours after restimulation of quiescent cells with IFN and serum. We propose that several molecular targets may exist for the 2' - 5' oligo (A) system, and that the kinetics of expression of the oligonucleotide after addition of IFN determine the type of cell cycle block obtained in different tumor cells in vivo.
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PMID:Interferon-induced inhibition of a malignant glioma cell line. Possible role of the 2' - 5' oligo (A) system. 338 34

Patients with advanced cancer and cachexia typically demonstrate modestly increased rates of energy expenditure in the presence of diminished food intake due to anorexia and to gastrointestinal disturbances. Rates of glucose production by the liver, gluconeogenesis and glycolysis to lactate (Cori cycle) are increased, fat mobilisation and oxidation are accelerated. There is a redistribution of body proteins away from muscle towards visceral proteins, resulting in marked muscle protein loss. Cancer cachexia differs from simple starvation and demonstrates metabolic similarities to sepsis or polytrauma. The metabolic response in the patient with cancer is largely due to mediators released by the tumour or by the host; recently the role of cytokines such as tumour necrosis factor alpha (TNF alpha), interleukin-1 (IL-1) and -6 (IL-6) and interferon gamma (INF gamma) has been emphasized. Catabolic hormones such as glucocorticoids and adrenaline have also been implicated. Cytokines have the potential to reproduce experimentally the clinical syndrome of cancer cachexia. There is evidence of increased production of several of them in certain types of cancer. There are overlapping activities of the cytokines TNF alpha, IL-1, IFN gamma and IL-6. The contribution of each of them to cancer cachexia remains unclear. Inhibition of cytokine activity using specific antibodies in cancer-bearing experimental animals demonstrated partial prevention of cachexia. A positive feedback between macrophage-derived IL-1 and tumour-derived IL-6 has been demonstrated recently in experimental cancer cachexia. Cytokines may support tumour growth by acting as growth factors.
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PMID:Pathophysiology of cancer cachexia. 815 43

IFNs are capable of modulating a variety of cellular responses, including cell growth and apoptosis. The prospective connections between these two biological responses are not fully understood, and the molecular mechanisms underlying the effects of IFNs on these processes are not completely defined. We have investigated the relationship between IFN-alpha-induced apoptosis and cell cycle arrest in three hematopoietic cell lines, Daudi, U-266, and H9. It was found that IFN-alpha was a rapid and potent inducer of apoptosis in H9 and U-266 cells, whereas IFN-alpha-induced cell cycle arrest in Daudi cells is not associated with the onset of apoptosis. In H9 cells, apoptosis occurs without a preceding cell cycle block, whereas in U-266 cells, apoptosis occurs subsequent to G1 arrest. Cell cycle arrest per se, induced by serum starvation or treatment with aphidicolin, had only minor effects on the viability of these cell lines and did not abrogate the apoptosis-inducing capacity of IFN-alpha. Additionally, IFN-alpha-induced apoptosis occurred in cells from all cell cycle phases. Thus, we conclude that IFN-alpha-induced apoptosis seems to occur independent of cell growth inhibition. There were no changes in Bcl-2 or Bax protein levels that could account for the apoptosis-inducing effects of IFN-alpha in these cell lines. Moreover, examination of p53 status suggests that IFN-alpha-induced apoptosis in the U-266 and H9 cell lines occurs through a p53-independent pathway.
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PMID:Induction of apoptosis and inhibition of cell growth are independent responses to interferon-alpha in hematopoietic cell lines. 905 77

Several observations suggest the presence of an interaction between immune and the endocrine systems. Leptin is an adipocyte-derived hormone, that belongs structurally to the long-chain helical cytokine family such as interleukin-2 (IL-2), interleukin-12 (IL-12), growth hormone (GH), and signals by a class I cytokine receptor (Ob-R). This cytokine represents an important link between fat mass on the one side and the regulation of energy balance and reproductive function on the other. Indeed, obese leptin-deficient ob/ob mice display low body temperature, hyperphagia, infertility and evidence of immune defects with lymphoid organ atrophy, mainly affecting thymic size and cellularity. Acute starvation, associated with decreased leptin levels, causes thymic atrophy and reduces the delayed type hypersensitivity (DTH) reaction to antigens in normal mice, resembling that observed in ob/ob mice. Leptin replacement reverses the immunosuppressive effects of acute starvation in mice. Leptin differentially affects the in vitro proliferation and cytokine production by naive and memory T cells, increasing IL-2 secretion and proliferation of naive T cells, while inducing IFN-g production in memory T cells with little effect on their proliferation. Presence of leptin seems to be necessary for the induction and maintenance of the pro-inflammatory Th1 immune response. These findings support the hypothesis that leptin plays a key role in linking nutritional state to the T cell function. According to this view, leptin might represent an important target for immune intervention in a variety of pathophysiological conditions.
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PMID:Leptin and the immune system: how nutritional status influences the immune response. 1070 94

IFN-gamma treatment of the human carcinoma cell line ME180 causes cell death due to induction of indoleamine 2,3-dioxygenase (IDO) and resulting starvation for tryptophan. A mutant cell line 3B6A derived from ME180 was resistant to IFN-gamma because of loss of IDO activity. Cotransfecting an IDO promoter-chloramphenicol acetyl transferase (CAT) construct with IFN regulatory factor-1 (IRF-1) resulted in induction of CAT activity in both ME180 and 3B6A cells even in the absence of IFN-gamma. This induction was reduced by cotransfection with IRF-2. However, IRF-1 was not able to restore IDO activity, suggesting a possible repressor site outside the IDO promoter region. Stat1alpha (p91) restored both CAT and IDO activities in 3B6A cells following IFN-gamma treatment. 3B6A cells doubly treated with IFN-gamma and IFN-alpha or IFN-beta restored IDO activity, although neither cytokine on its own could induce IDO. Western blot analysis showed that both constitutive expression and induction of Stat1alpha by IFN-gamma were reduced in 3B6A cells, and double treatment of IFN-gamma with IFN-alpha or IFN-beta restored the expression level of Statla. Electrophoretic mobility shift assays indicated that Stat1 binds to the IFN-gamma-activated sequence (GAS) region in the IDO promoter in ME180 cells following IFN-gamma treatment. Our results indicated that the defect in 3B6A cells was reduced expression of Stat1alpha and that IRF-1, NF-kappaB, and PKR were all involved to some extent in the induction of IDO following IFN-gamma treatment.
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PMID:Analysis of transcription factors regulating induction of indoleamine 2,3-dioxygenase by IFN-gamma. 1071 48

Interferons are a family of cytokines that exerts antiviral, antitumor and immunomodulatory actions by inducing a complex set of proteins. One of the best known IFN-induced protein is the dsRNA-dependent protein kinase (PKR), that mediates both antiviral and anticellular activities. PKR inhibits translation initiation through the phosphorylation of the alpha subunit of the initiation factor eIF-2 (eIF-2 alpha) and also controls the activation of several transcription factors such as NF-kappa B, p53, or STATs. In addition, PKR mediates apoptosis induced by many different stimuli, such as treatment with LPS, TNF-alpha, viral infection, or serum starvation. The mechanism of apoptosis induction by PKR involves phosphorylation of eIF-2 alpha and activation of NF-kappa B. In this way, expression of different genes is regulated by PKR. Among the genes upregulated in response to PKR are Fas, Bax and p53. The pathway of PKR-induced apoptosis involves FADD activation of caspase 8 by a mechanism independent of Fas and TNFR. Since IFNs are used as drugs for different disorders such as viral infection and cancer, understanding the pathway of apoptosis induction triggered by PKR should be useful in the rational design of IFN therapies.
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PMID:Induction of apoptosis by the dsRNA-dependent protein kinase (PKR): mechanism of action. 1123 38

The eIF2alpha kinases are a family of evolutionarily conserved serine/threonine kinases that regulate stress-induced translational arrest. Here, we demonstrate that the yeast eIF2alpha kinase, GCN2, the target phosphorylation site of Gcn2p, Ser-51 of eIF2alpha, and the eIF2alpha-regulated transcriptional transactivator, GCN4, are essential for another fundamental stress response, starvation-induced autophagy. The mammalian IFN-inducible eIF2alpha kinase, PKR, rescues starvation-induced autophagy in GCN2-disrupted yeast, and pkr null and Ser-51 nonphosphorylatable mutant eIF2alpha murine embryonic fibroblasts are defective in autophagy triggered by herpes simplex virus infection. Furthermore, PKR and eIF2alpha Ser-51-dependent autophagy is antagonized by the herpes simplex virus neurovirulence protein, ICP34.5. Thus, autophagy is a novel evolutionarily conserved function of the eIF2alpha kinase pathway that is targeted by viral virulence gene products.
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PMID:Regulation of starvation- and virus-induced autophagy by the eIF2alpha kinase signaling pathway. 1175 70

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