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)

The expression and biological function of Nerve Growth Factor (NGF) receptors was studied in a panel of rhabdomyosarcoma cell lines derived from embryonal and alveolar histotype. All the cell lines expressed both the high affinity receptor TrkA and the low affinity receptor p75(NTR). Treatment with exogenous NGF did not considerably alter rhabdomyosarcoma cell growth or differentiation, but significantly inhibited spontaneous apoptosis as well as apoptosis, and induced by serum starvation or apoptosis induced by treatment with cycloheximide (CHX). Rhabdomyosarcoma cell lines expressed NGF and other neurotrophins and trace amounts of NGF protein were found in the supernatants of rhabdomyosarcoma cell cultures. Blocking the putative autocrine loop with an anti-NGF antibody resulted in an increase in apoptosis compared with control cultures. These data suggest that the simultaneous presence of both high and low affinity NGF receptors engaged by endogenous or exogenous NGF might contribute to the escape from apoptosis exhibited by the rhabdomyosarcoma cells.
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PMID:An anti-apoptotic role for NGF receptors in human rhabdomyosarcoma. 1152 1

Activation of the transcription factor FKHR (Forkhead in human rhabdomyosarcoma, FOXO1a) in various established cell lines induces cell cycle arrest followed by apoptosis. These effects are inhibited through activation of the phosphatidylinositol 3-kinase/Akt pathway, resulting in FKHR phosphorylation and its export from the nucleus, thus blocking its pro-apoptotic activity. Here we report that FKHR regulates fusion of differentiating primary myoblasts. We demonstrate that FKHR is localized in the cytoplasm of proliferating myoblasts, yet translocates to the nucleus by a phosphorylation-independent pathway following serum starvation, a condition that induces myoblast differentiation. FKHR phosphorylation during terminal differentiation appears to downregulate its fusion activity, as a dominant-active non-phosphorylatable FKHR mutant dramatically augments the rate and extent of myotube fusion. However, this FKHR mutant exerts its effects only after other events initiated the differentiation pro cess. Conversely, enforced expression of a dominant-negative FKHR mutant blocks myotube formation whereas wild-type FKHR has no effect. We conclude that in addition to the role of FoxO proteins in regulating cell cycle progress and apoptosis, FKHR controls the rate of myotube fusion during myogenic differentiation.
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PMID:FKHR (FOXO1a) is required for myotube fusion of primary mouse myoblasts. 1260 79

Murine L6 and human rhabdomyosarcoma cells were cultured standardized in low (0.28 mM) and normal (9 mM) amino acid (AA) concentrations to reevaluate by independent methods to what extent AA activate initiation of protein synthesis. Methods used were incorporation of radioactive AA into proteins, distribution analysis of RNA in density gradient, and Western blots on initiation factors of translation of proteins in cultured cells as well as in vivo (gastrocnemius, C57Bl mice) during starvation/refeeding. Incorporation rate of AA gave incorrect results in a variety of conditions, where phenylalanine stimulated the incorporation rate of phenylalanine into proteins, but not of tyrosine, and tyrosine stimulated incorporation of tyrosine but not of phenylalanine. Similar problems were observed when [35S]methionine was used for labeling of fractionated cellular proteins. However, the methods entirely independent of labeled AA incorporation indicated that essential AA activate initiation of translation, whereas nonessential AA did not. Branched-chain AA and glutamine, in combination with some other AA, also stimulated initiation of translation. Starvation/refeeding in vitro agreed qualitatively with results in vivo evaluated by initiation factors. Insulin at physiological concentrations (100 microM/ml) did not stimulate global protein synthesis at low or normal AA concentrations but did so at supraphysiological levels (3 mU/ml), confirmed by independent methods. Our results reemphasize that labeled AA should be used with caution for quantification of protein synthesis, since the precursor pool(s) for protein synthesis is not in complete equilibrium with surrounding AA. "Flooding" tracee experiments did not overcome this problem.
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PMID:Reevaluation of amino acid stimulation of protein synthesis in murine- and human-derived skeletal muscle cells assessed by independent techniques. 1559 73

In response to nutrient shortage or organelle damage, cells undergo macroautophagy. Starvation of glucose, an essential nutrient, is thought to promote autophagy in mammalian cells. We thus aimed to determine the role of autophagy in cell death induced by glucose deprivation. Glucose withdrawal induces cell death that can occur by apoptosis (in Bax, Bak-deficient mouse embryonic fibroblasts or HeLa cells) or by necrosis (in Rh4 rhabdomyosarcoma cells). Inhibition of autophagy by chemical or genetic means by using 3-methyladenine, chloroquine, a dominant negative form of ATG4B or silencing Beclin-1, Atg7, or p62 indicated that macroautophagy does not protect cells undergoing necrosis or apoptosis upon glucose deprivation. Moreover, glucose deprivation did not induce autophagic flux in any of the four cell lines analyzed, even though mTOR was inhibited. Indeed, glucose deprivation inhibited basal autophagic flux. In contrast, the glycolytic inhibitor 2-deoxyglucose induced prosurvival autophagy. Further analyses indicated that in the absence of glucose, autophagic flux induced by other stimuli is inhibited. These data suggest that the role of autophagy in response to nutrient starvation should be reconsidered.
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PMID:Glucose-starved cells do not engage in prosurvival autophagy. 2401 36

Altered metabolism is a hallmark of cancer that opens new therapeutic possibilities. 2-deoxyglucose (2-DG) is a non-metabolizable glucose analog tested in clinical trials and is frequently used in experimental settings to mimic glucose starvation. However, in the present study, conducted in a rhabdomyosarcoma cell line, we find that 2-DG induces classical nuclear apoptotic morphology and caspase-dependent cell death, whereas glucose deprivation drives cells toward necrotic cell death. Necrosis induced by glucose deprivation did not resemble necroptosis or ferroptosis and was not prevented by antioxidants. Both stimuli promote endoplasmic reticulum stress. Moreover, the transcription factor ATF4 is found to mediate both the apoptosis induced by 2-DG and the glycosylation inhibitor tunicamycin, as well as the necrosis provoked by glucose withdrawal. Several hexoses partially prevented glucose deprivation-induced necrosis in rhabdomyosarcoma, although only mannose prevented apoptosis induced by 2-DG. In both cases, a reduction of cell death was associated with decreased levels of ATF4. Our results confirm previous data indicating the differential effects of these two forms with respect to inhibiting glucose metabolism, and they place endoplasmic reticulum stress as the critical mediator of glucose starvation-induced cell death.
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PMID:ATF4 mediates necrosis induced by glucose deprivation and apoptosis induced by 2-deoxyglucose in the same cells. 2617 39