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 yeast transcriptional regulator protein GCN4 harbors the bZIP DNA binding motif, which is common to a family of DNA-binding proteins in eukaryotic organisms from yeast to man. GCN4 and the mammalian activator protein AP-1 (jun/fos) regulate transcription by binding the same consensus DNA sequence ATGA (C/G)TCAT. GCN4 positively regulates the production of precursors of protein synthesis in yeast cells in response to the environmental signal "amino acid starvation." We find three GCN4 responsive elements (GCREs) in the 5'-flanking region of the purine biosynthetic gene ADE4 and demonstrate that GCN4 efficiently activates transcription of ADE4. Two GCREs are essential to synergistically activate ADE4 transcription by binding GCN4. The distal GCRE1 is also required for basal transcription of ADE4. Therefore, transcription factor GCN4 affects, in addition to protein biosynthesis, also nucleotide biosynthesis and, comparable to its mammalian counterpart AP-1, has a more general function within the yeast cell than previously assumed.
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PMID:Transcriptional activation of yeast nucleotide biosynthetic gene ADE4 by GCN4. 193 99

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

UV irradiation of mammalian cells activates AP-1 through a Ras-dependent pathway, independently of DNA damage. We show that the yeast S. cerevisiae has a remarkably similar UV response involving the AP-1 factor Gcn4, which is distinct from the DNA damage response. Transcriptional activation of HIS3 and HIS4 by Gcn4 is triggered by UV irradiation in a Ras-dependent fashion. Moreover, resistance of yeast to UV irradiation is correlated with the level of Ras activity and Gcn4 function. Like mammalian cells in which activated Ras leads to increased c-Jun synthesis and phosphorylation, the effects in yeast involve increased translation of GCN4 mRNA and a posttranslational event. However, this effect on GCN4 translation is different from the response to amino acid or purine starvation. Therefore, a UV signaling pathway involving Ras and AP-1 is an ancient and universal mechanism involved in protection against damage to cellular components other than DNA.
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PMID:The UV response involving the Ras signaling pathway and AP-1 transcription factors is conserved between yeast and mammals. 818 Oct 58

A20 zinc finger protein is a product of a cytokine-induced primary response gene. In this report, we demonstrate that A20 specifically inhibits signal transduction pathways induced by TNF and IL-1, suggesting that it functions as a negative regulator of the cytokine response. Overexpression of A20 in MCF7 breast carcinoma cells or in WEHI-S fibrosarcoma cells inhibits apoptosis induced by TNF, whereas cytotoxicity induced by anti-Fas (anti-CD95); lymphokine-activated killer (LAK) cells, serum starvation, oxidative stress, or okadaic acid is not inhibited. Overexpression of A20 also inhibits TNF-induced activation of phospholipase A2 in a similar dose-dependent manner as it inhibits TNF-mediated apoptosis, whereas it does not affect the activation of phospholipase A2 by anti-Fas. Interestingly, A20 also blocks TNF-induced signal transduction pathways not directly related to the cytotoxicity, namely activation of NF-kappa B and AP-1 transcription factors. Activation of these transcription factors by a functionally related cytokine, IL-1, is also inhibited by A20, whereas activation induced by hydrogen peroxide or phorbol ester is unaffected. Overexpression of A20 does not affect the binding of TNF to its cell surface receptors. These data suggest that A20 functions as a negative regulator of TNF and IL-1, interfering with signal transduction pathways at an early point following receptor binding but before the activation of various second messengers, leading to the wide variety of effects induced by these cytokines.
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PMID:A20 zinc finger protein inhibits TNF and IL-1 signaling. 855 94

We have cloned and characterized a homologue of the Neurospora crassa general amino acid control gene cpc-1 from the chestnut blight fungus Cryphonectria parasitica. The deduced amino acid sequence of C. parasitica CPC1 (cpCPC1) contains regions with significant homology to the transcriptional activation, DNA binding, and dimerization domains previously defined for N. crassa CPC1 (ncCPC1) and the equivalent "b-ZIP" transcription factor from Saccharomyces cerevisiae, GCN4 (scGCN4). Treatment of C. parasitica with low levels of the protein synthesis inhibitor cycloheximide caused cpc-1 transcript levels to undergo a rapid, transient increase similar to that reported for the mammalian b-ZIP transactivators, c-Jun and c-Fos. Northern analysis also revealed that amino acid starvation of C. parasitica elicits an increase in cpc-1 transcript levels. Hypovirus infection did not affect this increase, although transcript accumulation for several amino acid biosynthetic genes was slightly diminished in the hypovirus-containing strain. Recombinant cpCPC1 specifically bound to the consensus DNA binding element (AP-1), 5'-A/GTGACTCAT-3', also located upstream of the C. parasitica cpc-1 coding region. Constitutive transgenic expression of a DNA binding defective cpCPC1 mutant impaired the ability of C. parasitica to adjust to amino acid starvation. Moreover, these transformants showed reduced ability to grow on host chestnut tissue. Our results define a general amino acid control transactivator in a plant pathogenic fungus and suggest that functional modulation of this factor can influence fungal virulence.
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PMID:Cloning and characterization of a general amino acid control transcriptional activator from the chestnut blight fungus Cryphonectria parasitica. 950 79

The retinoblastoma protein (Rb) acts as a critical cell-cycle regulator and loss of Rb function is associated with a variety of human cancer types. Here we report that Rb binds to members of the AP-1 family of transcription factors, including c-Jun, and stimulates c-Jun transcriptional activity from an AP-1 consensus sequence. The interaction involves the leucine zipper region of c-Jun and the B pocket of Rb as well as a C-terminal domain. We also present evidence that the complexes are found in terminally differentiating keratinocytes and cells entering the G1 phase of the cell cycle after release from serum starvation. The human papillomavirus type 16 E7 protein, which binds to both c-Jun and Rb, inhibits the ability of Rb to activate c-Jun. The results provide evidence of a role for Rb as a transcriptional activator in early G1 and as a potential modulator of c-Jun expression during keratinocyte differentiation.
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PMID:Rb binds c-Jun and activates transcription. 954 46

In mammalian cells transcription factors of the AP-1 family are activated by either stress signals such as UV radiation, or mitogenic signals such as growth factors. Here we show that a similar situation exists in the yeast Saccharomyces cerevisiae. The AP-1 transcriptional activator Gcn4, known to be activated by stress signals such as UV radiation and amino acids starvation, is also induced by growth stimulation such as glucose. We show that glucose-dependent Gcn4 activation is mediated through the Ras/cAMP pathway. This pathway is also responsible for UV-dependent Gcn4 activation but is not involved in Gcn4 activation by amino acid starvation. Thus, the unusual phenomenon of activation of mitogenic pathways and AP-1 factors by contradictory stimuli through Ras is conserved from yeast to mammals. We also show that activation of Gcn4 by glucose and UV requires Gcn2 activity. However, in contrast to its role in amino acid starvation, Gcn2 does not increase eIF2alpha phosphorylation or translation of GCN4 mRNA in response to glucose or UV. These findings suggest a novel mechanism of action for Gcn2. The finding that Gcn4 is activated in response to glucose via the Ras/cAMP pathway suggests that this cascade coordinates glucose metabolism with amino acids and purine biosynthesis and thereby ensures availability of both energy and essential building blocks for continuation of the cell cycle.
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PMID:Gcn2 mediates Gcn4 activation in response to glucose stimulation or UV radiation not via GCN4 translation. 1135 Sep 78

In our previous publication it was shown that a Gemcitabine-resistant KBGem clone derived from step-wise exposure to Gemcitabine resulted in overexpression of the human Ribonucleotide Reductase M2 subunit (hRRM2) mRNA and protein (Goan et al., 1999). In this study we confirm these results and show that the hRRM2 gene amplification arises in a homogeneous staining region (hsr) derived from chromosome translocation. The hydroxyurea-resistant clone (KBHURs) was studied as a comparison. PCR analysis of the hRRM2 gene promoter confirmed the amplification. Northern and Western blots were further employed to confirm the gene amplification and hRRM2 mRNA and protein expression were compatible with the level of drug resistance. Cells synchronized by serum starvation and then returned to serum-containing growth conditions showed a rapid induction of high levels of transcription of the hRRM2 gene. To clarify whether expression of hRRM2 mRNA was regulated at a transcriptional level, several transcription factors, including AP-1, Sp1, AP-2, CREB, NF-kappa B, and OCT1, were examined by gel-shift assay. Interestingly, the KBGem clone was regulated by different transcription factors than the KBHURs clone. Compared to the wild-type KB cells (KBwt), the KBGem clone exhibited a different binding pattern for Sp1 and NF-kappa B. The KBHURs clone, however, demonstrated a unique binding pattern with AP-1 and CREB, different from the KBwt control as well as the KBGem clone. Therefore, we conclude that the drug-resistant phenotype is associated with human RRM2 gene amplification from a homogeneous staining chromosome region and altered transcription regulation. Each clone demonstrated a unique pattern of transcription factor binding that may play a vital role in the mechanism of drug resistance.
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PMID:Human ribonucleotide reductase M2 subunit gene amplification and transcriptional regulation in a homogeneous staining chromosome region responsible for the mechanism of drug resistance. 1197 67

Juvenile visceral steatosis (JVS) mouse is an animal model of human primary carnitine deficiency caused by a mutation of the gene encoding carnitine transporter, and suffers from various symptoms, such as fatty liver, growth retardation, hyperammonemia, hypoglycemia, and cardiac hypertrophy. We have shown that hyperammonemia during the weaning period (15-26 days of age) is caused by suppression of urea cycle enzyme gene expression. The suppression resulted from activation of a transcription factor, AP-1. We have found that a cis-element for AP-1 binding is present in the enhancer region of the carbamoylphosphate synthetase (CPS) gene, and that the AP-1 binding site is involved in the suppression of CPS induction by dexamethasone in cultured hepatocytes and in the suppression of CPS expression in the liver of JVS mice. The blood ammonia levels in JVS mice increased during the weaning period, and then decreased to almost control levels after 30 days of age. In this paper, we report that in adult JVS mice, ammonia levels again increased after starvation for at least 24 hr and this effect was suppressed by carnitine treatment. Starvation for 48 hr did not significantly suppress CPS activity in the liver and did not cause any change in hepatic ornithine concentration. The concentration of N-acetylglutamate in the liver of starved JVS mice was not significantly different from that of JVS mice treated with carnitine. These results indicate that the hyperammonemia in carnitine-deficient adult JVS mice during starvation and the suppression by carnitine treatment differ from those found during the weaning period, and thus the cause of hyperammonemia and the mechanism of suppression remain to be solved.
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PMID:Hyperammonemia in carnitine-deficient adult JVS mice used by starvation. 1260 12

The Gcn4 protein, a member of the AP-1 family of transcription factors, is involved in the expression of more than 500 genes in the budding yeast Saccharomyces cerevisiae. A key role of Gcn4p is the increased expression of many amino acid biosynthesis genes in response to amino acid starvation. The accumulation of this transcription activator is mainly induced by efficient translation of the GCN4 ORF and by stabilisation of the Gcn4 protein. Under normal growth conditions, Gcn4p is a highly unstable protein, thereby resembling many eukaryotic transcription factors, including mammalian Jun and Myc proteins. Gcn4p is degraded by ubiquitin-dependent proteolysis mediated by the Skp1/cullin/F-box (SCF) ubiquitin ligase, which recognises specifically phosphorylated substrates. Two cyclin-dependent protein kinases, Pho85p and Srb10p, have crucial functions in regulating Gcn4p phosphorylation and degradation. The past few years have revealed many novel insights into these regulatory processes. Here, we summarise current knowledge about the factors and mechanisms regulating Gcn4p stability.
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PMID:Controlling transcription by destruction: the regulation of yeast Gcn4p stability. 1450 4

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