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 effects of 10 days of total energy deprivation on serum levels of immunoglobulins, antibodies acute phase reactants and on interferon production were evaluated in fourteen healthy, normal-weight males. A significant depression was noted of the serum levels of complement factor 3, haptoglobin and orosomucoid. The titres of mercaptoethanol-sensitive specific antibodies to flagellin were higher in the subjects inoculated at the end of the starvation period than in controls and those inoculated at the start of the period. The serum levels of IgG, IgM, IgA, IgE, alpha-1-antitrypsin and complement factor 4, and the interferon-producing capacity of blood lymphocytes, were not changed. Thus, 10 days of total energy deprivation depresses the serum levels of several acute phase reactants and re-feeding may enhance antibody production.
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PMID:Acute energy deprivation in man: effect on serum immunoglobulins antibody response, complement factors 3 and 4, acute phase reactants and interferon-producing capacity of blood lymphocytes. 60 38

The production of interferons in blood and milk leukocytes of three groups of cows was measured to determine the effect of 6-days cold treatment (-2 degrees to -8 degrees C) and/or starving. The first group (cold) was treated with low ambient temperature (-2 degrees C to -8 degrees C) 11 hours every day for 6 days, the second (cold and starved) was treated with low temperature and starved for 6 days. The third group (controls) was fed normally and kept in a barn at room temperature (18 degrees to 20 degrees C). The leukocytes of the control and the cold treated cows responded normally to interferon induction with Newcastle Disease Virus (NDV) and mitogens: phytohemagglutinin (PHA) and concanavalin A (ConA). The cows treated with low temperature and starved for 6 days developed biochemical blood changes of ketosis. Leukocytes of these cows with ketosis produced less interferon (p less than 0.05) than before starvation and less than leukocytes of the control cows and the cold treated cows. It can be assumed that ketosis caused by starving decreases the ability of a cow's leukocytes to produce interferons.
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PMID:Effects of cold treatment and ketosis induced by starvation on interferon production in leukocytes of lactating cows. 137 41

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

In this study, we examined the activity of recombinant interferon (IFN)-gamma against Plasmodium berghei exoerythrocytic forms (EEF) grown in vitro within the highly differentiated human hepatoma cell line HEPG2. We assayed the effect of IFN-gamma on parasite growth by DNA hybridization using a P. berghei specific DNA probe. The specific activity of IFN-gamma against EEF is very high, and depends upon the time of lymphokine addition. When IFN-gamma is added to HEPG2 cells containing intracellular EEF, 6 hr after sporozoite invasion, parasite DNA replication is inhibited by approximately 75% at 10(3) U/ml and 50% at 1 U/ml. This treatment can either abolish or greatly reduce the infectivity of EEF for mice. When added earlier, 3 hr after completion of sporozoite invasion, IFN-gamma inhibits parasite replication to an even greater degree. The highest levels of inhibition were obtained when IFN-gamma was added 6 hr prior to sporozoite invasion (100% inhibition at 10(2) U/ml, approximately 55% inhibition at 0.1 U/ml, and 17% inhibition at 0.001 U/ml). We found that HEPG2 cells express approximately 44,000 surface receptors for IFN-gamma. These data are consistent with the view that IFN-gamma exerts its antimalarial activity by binding to surface receptors on hepatocytes and inducing intracellular changes unfavorable for parasite development. Tryptophan starvation does not appear to be involved in this process. These findings also support the idea that IFN-gamma, released from immune T cells upon encountering sporozoite antigen, may be an important effector mechanism in sterile immunity to sporozoite challenge.
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PMID:Interferon-gamma inhibits the intrahepatocytic development of malaria parasites in vitro. 295 45

Regulation of protein synthesis is being exerted at different levels with a different extent of attenuation. The major control module seems to work by the inactivation of the elF-2 recycling which enables the cell to shift down from a high rate of initiation to a low rate. Certain events in the cell cycle like mitosis do show such a drastic change in initiation rate. It is suggested that modifications of elF-2 by phosphorylation of the alpha-subunit by different protein-kinases is the basis for such a control mechanism. Already two protein kinases of this type have been described, the hemin-regulated inhibitor and the ds-RNA activated inhibitor from interferon-treated cells. On the other hand modifications of the beta-subunit by other metabolic events, for instance low NADH/NAD+ ratio, can as yet not be excluded. Other conditions like amino acid starvation, serum deprivation, heat-shock and virus-infection seem to evoke quite different strategies. In some cases it has been demonstrated that inactivation of mRNA binding factors as elF-4B and elF-4E, favour the translation of low-dependence, i.e. low secondary structure, messengers. It shall be worthwhile to establish whether the mRNA's with such low degree of secondary structure encoded proteins that are aimed at the survival of the cell under extreme metabolic or stress conditions. Much more work on the structure and nucleotide sequences of the leader sequence is needed to prove these hypothetical points.
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PMID:Regulatory steps in the initiation of protein synthesis. 636 24

Iron-regulatory protein (IRP) is a master regulator of cellular iron homeostasis. Expression of several genes involved in iron uptake, storage, and utilization is regulated by binding of IRP to iron-responsive elements (IREs), structural motifs within the untranslated regions of their mRNAs. IRP-binding to IREs is controlled by cellular iron availability. Recent work revealed that nitric oxide (NO) can mimic the effect of iron chelation on IRP and on ferritin mRNA translation, whereas the stabilization of transferrin receptor mRNA following NO-mediated IRP activation could not be observed in gamma-interferon/lipopolysaccharide-stimulated murine macrophages. In this study, we establish the function of NO as a signaling molecule to IRP and as a regulator of mRNA translation and stabilization. Fibroblasts with undetectable levels of endogenous NO synthase activity were stably transfected with a cDNA encoding murine macrophage inducible NO synthase. Synthesis of NO activates IRE binding, which in turn represses ferritin mRNA translation and stabilizes transferrin receptor mRNA against targeted degradation. Furthermore, iron starvation and NO release are shown to be independent signals to IRP. The posttranscriptional control of iron metabolism is thus intimately connected with the NO pathways.
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PMID:Nitric oxide signaling to iron-regulatory protein: direct control of ferritin mRNA translation and transferrin receptor mRNA stability in transfected fibroblasts. 753 89

Two human neuroblastoma cell lines, LAN-5 and GI-CA-N, have been analyzed for their capability to adhere to different extracellular matrix (ECM) components. The GI-CA-N cells adhered to all the tested substrates: laminin (LN), type I and type IV collagen (Coll I, Coll IV), vitronectin (VN), and fibronectin (FN). Conversely LAN-5 cells weakly attached to FN and VN, whilst adhesion on LN and Coll I and IV was strong and induced a rapid elongation of cell processes. By means of RT-PCR and immunoprecipitation we showed that the integrin pattern of these two lines was different and could explain their diversity in adhesion capability. Both cell lines express a large amount of the beta 1 integrin subunit, associated with different alpha chains, probably responsible for their adhesion to some ECM proteins. After treatment of LAN-5 cells with biological differentiating agents, such as gamma-interferon, alone or in combination with tumour necrosis factor-alpha (TNF-alpha), or retinoic acid, the levels of alpha 1 beta 1, alpha 2 beta 1, and alpha 3 beta 1 integrin expression were enhanced, while the amount of alpha v remained constant. In contrast, treatment of LAN-5 cells with TNF-alpha, that did not induce any maturation, or starvation in 2% foetal calf serum, that inhibited cell proliferation without affecting neural differentiation, did not induce any change in the integrin assessment. Messenger-RNAs for the two alpha 6 isoforms, A and B, were present in both cell lines. However, in LAN-5 cells, the protein product was neither detectable nor inducible by differentiation. Our results confirm the specific modulation of the alpha 1 beta 1 integrin expression in human neuronal development, and show, for the first time, the involvement of alpha 2 beta 1 and alpha 3 beta 1 heterodimers in this maturational process.
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PMID:Modulation of alpha 1 beta 1, alpha 2 beta 1 and alpha 3 beta 1 integrin heterodimers during human neuroblastoma cell differentiation. 769 64

Phosphorylation of translation initiation factor 2 alpha is a highly conserved mechanism for down-regulating protein synthesis in response to starvation or stress. The yeast eIF-2 alpha kinase GCN2 is stimulated by deprivation for amino acids or purines. In addition to inhibiting general protein synthesis, GCN2 specifically stimulates translation of GCN4, a transcriptional activator of amino acid biosynthetic genes. HRI is an eIF-2 alpha kinase that is activated in rabbit reticulocytes by heme-deprivation and stress conditions that elicit the heat-shock response. The eIF-2 alpha kinase DAI is activated by double-stranded RNA during viral infections and is an important component of the interferon response. DAI has also been implicated as a tumor suppressor. These protein kinases provide an important means of coupling the rate of protein synthesis and cell division to environmental conditions.
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PMID:The eIF-2 alpha kinases: regulators of protein synthesis in starvation and stress. 771 Dec 90

Protein synthesis is regulated in response to environmental stimuli by covalent modification, primarily phosphorylation, of components of the translational machinery. Phosphorylation of the alpha subunit of eIF-2 is one of the best-characterized mechanisms for down-regulating protein synthesis in higher eukaryotes in response to various stress conditions. Three distinct protein kinases regulate protein synthesis in eukaryotic cells by phosphorylating the alpha subunit of eIF-2 at serine-51. There are two mammalian eIF-2alpha kinases: the double-stranded RNA-dependent kinase (PKR) and heme-regulated inhibitor kinase (HRI), and the yeast GCN2. The regulatory mechanisms and the molecular sizes of these eIF-2alpha kinases are different. The expression of PKR is induced by interferon, and the kinase activity is stimulated by low concentrations of double-stranded RNA. HRI is activated under heme-deficient conditions. Yeast GCN2 is activated by amino acid starvation. The phosphorylation of eIF-2alpha results in the shutdown of protein synthesis. Nevertheless, the eIF-2alpha kinases can regulate both global as well as specific mRNA translation. Inhibition of protein synthesis correlates with eIF-2alpha phosphorylation in response to a wide variety of different stimuli, including heat shock, serum deprivation, glucose starvation, amino acid starvation, exposure to heavy metal ions, and viral infection. Finally, recent studies suggest a role for eIF-2alpha phosphorylation in the control of cell growth and differentiation.
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PMID:The eIF-2alpha kinases and the control of protein synthesis. 890 8

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