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)

Trapidil is a PDGF antagonist that can inhibit the proliferation of the PDGF-producing glioma cells, U251MG. As the mechanism of growth-regulation by trapidil remains unclear, we studied its effect on the growth of U251MG cells. We performed a cell cycle analysis and examined the intracellular transduction pathway and oncogene expression in serum-stimulated glioma cells with or without trapidil. After the serum starvation for 3 days, glioma cell proliferation was stimulated by the addition of serum. Cell cycle analysis showed that cell cycle perturbations induced by trapidil included a decreased transition rate from G0-G1 to S phase, suggesting that some metabolic event is required for progress through the G0-G1 phase and that this event is sensitive to trapidil. Internal signal transduction mechanisms are central in the molecular control of cell growth. One such regulator is the protein kinase C(PKC) system and the c-fos gene is likely to be a direct target of intracellular signal transduction pathways. Therefore, we hypothesize that the intracellular PKC activity and c-fos expression of the trapidil-treated cells are suppressed. We posit that trapidil affects the intracellular signal transduction pathway PKC activity and c-fos expression in cells stimulated with serum containing growth factors.
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PMID:The mechanism of growth-regulation of glioma cells by trapidil. 767 82

The growth arrest and DNA damage-inducible (gadd) genes represent a group of five stress-inducible genes that are coordinately regulated at the transcriptional level. Posttranscriptional regulation of gadd153, gadd45, gadd34, gadd33, and gadd7 was studied after exposure to DNA-damaging agents or other growth arrest treatments in hamster cells. Relative transcript levels were measured following treatment with the transcriptional inhibitor actinomycin D. After exposure to methylmethane sulfonate or UV radiation, all five gadd messages demonstrated a coordinate increase in mRNA stability compared to untreated exponentially growing cells. This enhanced stability was not an universal response to genotoxic stress since other DNA damage-inducible genes, such as c-jun and c-fos, did not show an appreciable increase in mRNA half-life. In contrast, induction of growth arrest by media depletion (starvation) or by treatment with the growth inhibitor prostaglandin A2 did not induce such an increase in mRNA stability in all gadd genes. Comparison of overall RNA turnover by 3H labeling of total cellular RNA also indicated that the preferential stabilization of the gadd transcripts by DNA-damaging agents was not an artifactual response due to variations in overall RNA metabolism within each treatment group. However, DNA-damaging agents were ineffective in inducing stabilization of gadd153 mRNA in growth-arrested cells. This suggest that the signal(s) that give rise to gadd mRNA stability may also be affected by the state of cellular proliferation. Together, these results suggest that the global posttranscriptional response of the gadd genes to DNA-damaging agents is specific and unique to actively growing cells, and further implicates the role of the gadd genes in the DNA damage response of cycling cells.
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PMID:Genotoxic stress confers preferential and coordinate messenger RNA stability on the five gadd genes. 792 13

Previous investigations have shown that culture of freshly isolated hepatocytes under conventional conditions, i.e., on dried rat tail collagen in the presence of growth factors, facilitates cell growth but also causes an extensive down-regulation of most liver-specific functions. This dedifferentiation process can be prevented if the cells are cultured on a reconstituted basement membrane gel matrix derived from the Englebreth-Holm-Swarm mouse sarcoma tumor (EHS gel). To gain insight into the mechanisms regulating this response to extracellular matrix, we are analyzing the activities of two families of transcription factors, C/EBP and AP-1, which control the transcription of hepatic and growth-responsive genes, respectively. We demonstrate that isolation of hepatocytes from the normal quiescent rat liver by collagenase perfusion activates the immediate-early growth response program, as indicated by increased expression of c-jun, junB, c-fos, and c-myc mRNAs. Adhesion of these activated cells to dried rat tail collagen augments the elevated levels of these mRNAs for the initial 1 to 2 h postplating; junB and c-myc mRNA levels then drop steeply, with junB returning to normal quiescence and the c-myc level remaining slightly elevated during the 3-day culture period. Levels of c-jun mRNA and AP-1 DNA binding activity, however, remain elevated from the outset, while C/EBP alpha mRNA expression is down-regulated, resulting in a decrease in the steady-state levels of the 42- and 30-kDa C/EBP alpha polypeptides and C/EBP alpha DNA binding activity. In contrast, C/EBP beta mRNA production remains at near-normal hepatic levels for 5 to 8 days of culture, although its DNA binding activity decreases severalfold during this time. Adhesion of hepatocytes to the EHS gel for the same period of time dramatically alters this program: it arrests growth and inhibits AP-1 DNA binding activity and the expression of c-jun, junB, and c-myc mRNAs, but, in addition, it restores C/EBP alpha mRNA and protein as well as C/EBP alpha and C/EBP beta DNA binding activities to the abundant levels present in freshly isolated hepatocytes. These changes are not due merely to growth inhibition, because suppression of hepatocyte proliferation on collagen by epidermal growth factor starvation or addition of transforming growth factor beta does not inhibit AP-1 activity or restore C/EBP alpha DNA binding activity to normal hepatic levels. These data suggest that expression of the normal hepatic phenotype requires that hepatocytes exist in a G0 state of growth arrest, facilitated here by adhesion of cells to the EHS gel, in order to express high levels of hepatic transcription factors such as C/EBP alpha.
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PMID:Cell-extracellular matrix interactions can regulate the switch between growth and differentiation in rat hepatocytes: reciprocal expression of C/EBP alpha and immediate-early growth response transcription factors. 806 19

We have previously shown that asparagine synthetase (AS) mRNA expression can be dramatically up-regulated by asparagine deprivation in ts11 cells, mutants of BHK hamster cells which encode a temperature-sensitive AS. The expression of AS mRNA was also induced upon starvation for one of several essential amino acids in HeLa cells. We also showed that regulation of AS mRNA expression by amino acid concentration has both transcriptional and posttranscriptional components. Here we report the analysis of the elements in the human AS promoter region important for its basal activity and activation by amino acid starvation. Our results indicate that a DNA fragment spanning from nucleotides -164 to +44 of the AS promoter is sufficient for uninduced and induced gene expression. Mutations in a region located 15 to 30 bp downstream from the major transcription start site that shows good homology to a sequence in the first exon of c-fos implicated as a negative regulatory element resulted in a significant increase in basal gene expression but did not affect regulation. Interestingly, this region binds single-stranded-DNA-binding proteins that are specific for the AS coding strand. Mutations in either one of two putative binding sites for transcription factor Sp1, in a region of approximately 60 bp where many minor RNA start sites are located, or at the major transcription start site decreased promoter activity, but significant induction by amino acid starvation was still observed. Strikingly, mutations centered around nucleotide -68 not only decreased the basal promoter activity but also abolished amino acid regulation. This DNA region contains the sequence 5'-CATGATG-3', which we call the amino acid response element (AARE), that can bind a factor(s) present in HeLa cells nuclear extracts that is not capable of binding to an AS promoter with mutations or deletions of the AARE. This finding is in line with the hypothesis that transcriptional activation of AS gene expression is mediated through the binding of a positive regulatory element. We did not detect changes in the level of binding of this factor to the AARE by using nuclear extracts from HeLa cells grown under starved conditions, suggesting that activation of this factor(s) results from posttranslational modification or complexing with other proteins that do not affect its DNA-binding properties.
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PMID:Cis- and trans-acting elements involved in amino acid regulation of asparagine synthetase gene expression. 809 42

The effect of starvation and refeeding on the developmental pattern of intestinal sucrase-isomaltase (SI) was analyzed in preweaned rats. Starvation at postnatal day 12 caused a precocious expression of SI activity and mRNA. Alkaline phosphatase activity was slightly reduced, and no significant change was observed for aminopeptidase and lactase activities. Immunostaining showed that SI molecules appear in cells at the base of the villus. Sucrase expression was further increased by prolonged food deprivation, whereas enzyme activity as well as the amount of SI mRNA dropped to reach the low level found in control sucklings when 48 h-starved pups were refed by returning them to their dams. During the refeeding period, the enterocytes that were committed to produce SI by starvation continued to express the enzyme while migrating up the villi. However, the new epithelial cells arising from the crypts no longer synthesized the disaccharidase. The starvation-evoked appearance of SI was preceded by a transient burst of expression of the protooncogene c-fos, an event that may be correlated to the ontogenic rise of c-fos mRNA observed before weaning. However, in contrast to the normal weaning condition, SI induction by starvation occurred without obvious increase of epithelial cell proliferation and turnover. During the starvation and refeeding period, patterns of sucrase activity and SI mRNA paralleled the serum level of glucocorticoids.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Precocious and reversible expression of sucrase-isomaltase unrelated to intestinal cell turnover. 817 95

Tumour necrosis factor-alpha (TNF) induced a cytotoxic response in ME-180 human cervical carcinoma cells in vitro. This cytotoxic response was accompanied by a temporal series of intracellular signals that are commonly triggered by a mitogenic stimulus: increased c-fos (20-30 min) and c-myc (40-60 min) expression, increased activity of ornithine decarboxylase (3 h), increased intracellular polyamine content (7 h) and increased thymidine incorporation into DNA (14 h). A cytotoxic response independent of these mitogenic signals could not be explained by an induction of interleukin-6, which is an autocrine cytotoxic agent in some cell types; nor by a biphasic, dose-dependent response in which low concentrations of TNF are mitogenic and higher concentrations are cytotoxic. Conversely, a dependent role of these mitogenic signals was suggested by the absence of a TNF-promoted increase in thymidine incorporation into DNA in an ME-180 clone that is resistant to TNF-induced cytotoxicity. A decrease in the proliferation rate of TNF-sensitive cells induced by either alpha-difluoromethylornithine treatment (resulting in polyamine depletion) or serum starvation rendered the cells insensitive to TNF-induced cytotoxicity, further suggesting a role for mitogenic signals and cell division in TNF-mediated cytotoxicity. However, inhibiting proliferation with cycloheximide resulted in increased sensitivity to TNF, implying that mitogenesis itself was not essential for a cytotoxic response. TNF induced DNA fragmentation in sensitive cells, suggesting that cytotoxicity occurred via apoptosis.
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PMID:Tumour necrosis factor-induced cytotoxicity is accompanied by intracellular mitogenic signals in ME-180 human cervical carcinoma cells. 843 87

Earlier studies have shown that smooth muscle cells (SMC) from arteries of neonatal and adult rats differ markedly in their in vitro growth characteristics. Since some of these differences may be relevant to the proliferation of SMC in atherosclerotic plaques we examined the expression of three proto-oncogenes (c-fos, c-jun, and c-myc) and an SMC-specific differentiation marker (alpha-actin) in cultured SMC. In presence of serum cultured adult SMC contained lower levels of alpha-actin mRNA than neonatal cells. In neonatal cells serum-starvation resulted in a distinct increase in both c-myc and alpha-actin mRNA levels, whereas the expression of these genes appeared to be unaffected in adult cells. Transfer of adult SMC proliferating in the presence of fetal calf serum to serum-free medium for 48 h almost completely inhibited DNA synthesis, whereas transfer of neonatal SMC to serum-free medium reduced DNA synthesis only to about 50%. Serum-starved adult and neonatal SMC did not contain c-fos or c-jun transcripts, but in both cell types serum-stimulation resulted in a comparable increase in the expression of both genes. The present results demonstrate clear differences in the mechanisms regulating gene expression in adult and neonatal SMC.
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PMID:Endogenous activation of c-myc expression and DNA synthesis in serum-starved neonatal rat smooth muscle cells. 847 86

The expression of cyclin A, one of the key regulators of cell cycle progression in association with cdc2/cdk2 protein kinases and which undergoes cyclic accumulation during the cell cycle, has been investigated in CCL39 Chinese hamster lung fibroblasts and in two transformed variants, A71 and 39Py. Whereas A71 (selected after tumor induction in nude mice) is subject to growth arrest (less than 5% of labeled nuclei after 24 h of serum starvation), 39Py (obtained after transformation by polyoma virus) is not (more than 50% of labeled nuclei). In both cells, cyclin A expression was correlated with establishment of S phase, with a progressive deregulation of its G1 controls. This deregulation was not detected with the two early response genes c-fos and c-myc. The kinetics of accumulation of cyclin A lagged behind that of [3H]thymidine incorporation, thereby questioning a direct role for cyclin A in S phase triggering. Moreover, transforming growth factor beta 1, which is known to inhibit alpha-thrombin or fibroblast growth factor-induced mitogenicity in G0-arrested CCL39 cells, is shown here to down-regulate cyclin A expression in both CCL39 and A71 cells but has no effect on 39Py cells. These data establish cyclin A as a sensitive marker for the loss of growth factor requirement.
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PMID:Loss of the G1-S control of cyclin A expression during tumoral progression of Chinese hamster lung fibroblasts. 849 81

Transformed A5 mouse lung cells were examined for mechanisms that may explain their loss of glucocorticoid-induced growth inhibition. These cells were compared to nontransformed C10 mouse lung cells, which retain this response. Southern blot analysis revealed no major differences in the amount or pattern of restriction fragments for the glucocorticoid receptor (GR) gene between the responsive and nonresponsive cells. Northern blot analysis demonstrated that both cell lines expressed GR mRNA at similar levels and that these mRNAs had similar relative stabilities. The mRNA from both cell lines was used for reverse transcription-polymerase chain reaction amplification and direct sequencing with primers for different regions of the GR cDNA. A conservative mutation previously shown not to affect receptor function was detected within the DNA-binding domain region of the GR from both cell lines. Because of the ability of the transcription factors for activator protein-1 to antagonize GR function, c-jun and c-fos mRNA levels were examined. A5 cells were found to have higher levels of c-jun mRNA than C10 cells both during active cell growth and after serum starvation. Stable transfection of the nonresponsive A5 cells with a rat GR expression vector (A5GR7) resulted in strong glucocorticoid-induced growth inhibition, demonstrating that these cells retain the ability to be growth inhibited by these steroids. The A5GR7 transfectants also had higher mouse mammary tumor virus (MMTV)-chloramphenicol acetyltransferase (CAT) activity than the parental A5 cells and lower levels of c-jun during active cell growth. Transient transfection of the C10 cells with c-jun expression vector strongly reduced glucocorticoid-inducible MMTV-CAT activity. These results suggest that the transformed A5 cells apparently contain functional GR but that the high level of c-jun mRNA expression (probably resulting from the activated Ki-ras allele in these cells) may antagonize their ability to respond to the growth-inhibitory signaling of glucocorticoids.
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PMID:Loss of glucocorticoid-dependent growth inhibition in transformed mouse lung cells. 878 64

We have developed a protocol that reveals two antagonistic effects of phorbol-12-myristate-12-acetate (PMA) on the G0-->G1-->S transition of mammalian cell cycle. Balb-3T3 (Clone A31) cells arrested in G0 by serum starvation can be stimulated to traverse the G1 phase and initiate DNA synthesis 12 h later by a 2-h pulse with PMA. In contrast with this early stimulatory effect, PMA has an inhibitory effect when presented to the cells during the last 6 h of G1. PMA is able to inhibit DNA synthesis initiation irrespective of the triggering agent, i.e., serum, fibroblast growth factor, epidermal growth factor, platelet-derived growth factor, or PMA itself (presented as an early pulse). We have established that the critical period for the PMA inhibitory effect is between 6 and 8 h after cell stimulation. This dual effect of PMA is not a peculiarity of Balb-3T3 (clone A31) cells because it is also observed with other fibroblastic cell lines, namely, SWISS 3T3, NIL 8, and RAT 1, and also with the epithelial Y-1 adrenocortical cell line. Treatment with PMA for 0.5 or 2 h activates protein kinase C (PKC) in Balb-3T3-A31 cells, but is not sufficient to down-regulate the enzyme because a second 30-min PMA pulse applied between 6 and 6.5 h activates PKC again. On the other hand, a continuous 6.5-h PMA treatment causes PKC down-regulation; therefore, the inhibitory effect of PMA could be mediated by PKC. Growth factor early response proto-oncogenes c-myc, c-fos, and c-jun are induced transiently by both early and late PMA pulses, suggesting that these genes are not involved in the PMA inhibitory effect.
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PMID:Antagonistic actions of phorbol ester in mammalian G0-->G1-->S cell cycle transition. 878 35


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