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)

Entry into meiosis in Saccharomyces cerevisiae cells is regulated by starvation through the adenylate cyclase/cAMP-dependent protein kinase (AC/PK) pathway. The gene IME1 is also involved in starvation control of meiosis. Multicopy IME1 plasmids overcome the meiotic deficiency of bcy1 and of RASval19 diploids. Double mutants ime1 cdc25 and ime1 ras2 are sporulation deficient. These results suggest that IME1 comes after the AC/PK cascade. Furthermore, the level of IME1 transcripts is affected by mutations in the AC/PK genes CDC25, CYR1 and BCY1. Moreover, the addition of cAMP to a cyr1-2 diploid suppresses IME1 transcription. The presence in a bcy1 diploid of IME1 multicopy plasmids does not cure the failure of bcy1 cells to arrest as unbudded cells following starvation and to enter the G0 state (thermotolerance, synthesis of unique G0 proteins). This indicates that the pathway downstream of the AC/PK cascade branches to control meiosis through IME1, and to control entry into G0 and cell cycle initiation, independently of IME1.
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PMID:The adenylate cyclase/protein kinase cascade regulates entry into meiosis in Saccharomyces cerevisiae through the gene IME1. 220 44

The incorporation of [14C]acetate into cholesterol shows that FRTL-5 cells possess an active cholesterol biosynthetic pathway. When these cells were made quiescent, and synchronized by thyrotropin (TSH) starvation, in the presence of low serum (0.2%), addition of this hormone increased acetate conversion into cholesterol up to a maximum of 8-fold. Feedback inhibition of sterol synthesis by exogenous cholesterol occurs in FRTL-5 cells since, in the presence of higher serum concentration (5%), acetate conversion into cholesterol was significantly depressed. Even in high serum TSH increased sterol synthesis, albeit to a lesser extent. The time course of the TSH effect on cholesterol synthesis, strongly suggests that this process is necessary for quiescent FRTL-5 cells to enter the cell cycle. Thus, the rate of cholesterol synthesis was maximal 12-16 h after TSH challenge and declined thereafter, returning to levels slightly above the basal at 48 h. Thymidine incorporation into DNA, measured under identical conditions of TSH starvation/challenge, increased after 20 h, was maximal at 36 h, and returned to pre-TSH level at 70 h. The effect of TSH on cholesterol synthesis is not a general feature of lipid synthesis in FRTL-5 since [14C]acetate incorporation into triglycerides after TSH treatment has a different magnitude and time course. TSH increases cholesterol synthesis through the induction of the enzyme 3-hydroxy-3-methylglutaryl coenzyme A reductase. This is due to an increase in the level of 3-hydroxy-3-methylglutaryl-CoA reductase messenger RNA up to 8-fold caused by a proportional increase in the rate of gene transcription, as assessed by nuclear "run on" experiments. The effect of TSH on cholesterol synthesis and reductase gene expression is likely to be mediated by cAMP since 8-bromo-cAMP mimicked the effect of the hormone. The data presented suggest that an active cholesterol biosynthetic pathway is required for DNA synthesis to occur.
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PMID:Cell cycle progression and 3-hydroxy-3-methylglutaryl coenzyme A reductase are regulated by thyrotropin in FRTL-5 rat thyroid cells. 222 80

The monolayer cultures of newborn rats hepatocytes were treated with substrate starvation (20 min.) anoxia accompanied with substrate starvation (1 h.), following rehabilitation (1 h.) and cooling (4 degrees C, 30 min). After the neutral red staining we have examined the alterations in lysosomes quantity and the development of phagocytosis; we also tested the hepatocytes distribution due to the amount of the second lysosomes per cell. We have shown that a short time pathological treatment caused a decrease in large lysosomes (1-3 microns) amount in significant portion of hepatocytes. There were neither increase in phagosomes amount per cell nor alterations in the quantity of cells, containing phagosomes. However a long time pathological treatment caused the increase in phagosomes and cells. We propose that initial stage of lysosomal apparatus alterations, connected with reduction of CAMP level, is accompanied by a stamping of large lysosomes.
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PMID:[Changes in the composition of the lysosomes in hepatocytes cultured in vitro in modelling pathological states]. 236 62

This paper discusses hormonal and metabolic reactions of healthy volunteers exposed to 14-day starvation. This exposure led to many-fold increase of plasma and urinary epinephrine (E); drastic increase of ACTH and beta-endorphin (BE), morning and integrated concentrations of cortisol and STH, aldosterone, T3, glucagon, cAMP, cGMP, cAMP-cGMP, acetyl choline (AC), free fatty acids (FFA), lactate, metanephrine (MN) excretion; decrease of plasma norepinephrine (NE) and unchanged NE excretion; decrease of plasma concentrations of TTH, T4, T3, prolactin (PL), insulin (morning and integrated concentrations), C-peptide, FSH, LH, testosterone, histamine, prostaglandins (PG) A + E, PG F2, glucose and pH, as well as decrease of excretion of homovanillic acid (HVA), vanillyl mandelic acid (VMA), normetanephrine (NMN) and MN-E, NMN:NE. On recovery day 14 concentrations of E, NE, BE, STH, AC, cAMP, cGMP, FFA as well as E and dopamine excretion remained elevated while concentrations of T3, PL, FT, LT, testosterone PG A + E, PG 2 and excretion of MN, HVA, VMA, MN:E remained decreased, while other parameters returned to the normal.
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PMID:[Hormonal and metabolic reactions in the human body during prolonged starvation]. 237 73

The addition of glucose to the medium of Tetrahymena thermophila results in a 7-fold repression of galactokinase (EC 2.7.1.6; ATP:D-galactose-1-phosphotransferase). The presence of millimolar amounts of the catecholamines dopa, dopamine, norepinephrine, and epinephrine or the hormone glucagon also results in the repression of galactokinase in the absence of glucose. The addition of millimolar amounts of adrenergic agonists (isoproterenol, tyramine, 2-amino-6,7-dihydroxytetrahydronaphthalene) results in significant repression of galactokinase in the absence of glucose; concentrations of 2-amino-6,7-dihydroxytetrahydronaphthalene less than or equal to 10(-4) M result in a derepression of galactokinase specific activity. Addition of adrenergic antagonists (propranolol, dichloroisoproterenol) have no effect on galactokinase activity at concentrations less than 10(-4) M but do arrest cell growth at greater concentrations. The addition of the cAMP analogs caffeine or theophylline in millimolar amounts results in repression of galactokinase activity; however, cell growth is greatly slowed or completely arrested at these concentrations. Analysis of the repression response of several mutants demonstrates that mutants deficient in catecholamine biosynthesis are altered in their regulation of galactokinase. Measurements of intracellular cAMP levels for 0-24 h following the addition of several of the above compounds to exponentially growing cells did not demonstrate any change over this period. Measurement of intracellular cAMP levels for 24 h following the addition of glucose or galactose to exponentially growing wild-type and mutant cell strains did not demonstrate any difference in cAMP concentrations over this period although a wide range of galactokinase activity was exhibited. Starvation of wild-type cells prior to the addition of glucose in minimal medium without added carbohydrate resulted in a significant increase in cAMP following the addition of glucose. This increase is demonstrated to be dependent upon the ability of the cells to resume division after the arrest of growth and is not correlated with galactokinase regulation. These results support the conclusion that cAMP is not involved in the repression of galactokinase gene expression initiated by glucose or hormone-like effectors and demonstrate the participation of an adrenergic control system in galactokinase regulation which is subordinate to the regulation by glucose. A possible model is discussed.
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PMID:Regulation of galactokinase gene expression in Tetrahymena thermophila. I. Intracellular catecholamine control of galactokinase expression. 241 Apr 18

Dictyostelium discoideum amebae chemotax toward folate during vegetative growth and toward extracellular cAMP during the aggregation phase that follows starvation. Stimulation of starving amebae with extracellular cAMP leads to both actin polymerization and pseudopod extension (Hall et al., 1988, J. Cell. Biochem. 37, 285-299). We have identified an actin nucleation activity (NA) from starving amebae that is regulated by cAMP receptors and controls actin polymerization (Hall et al., 1989, J. Cell Biol., in press). We show here that NA from vegetative cells is also regulated by chemotactic receptors for folate. Our studies indicate that NA is an essential effector in control of the actin cytoskeleton by chemotactic receptors. Guided by a recently proposed model for signal transduction from the cAMP receptor (Snaar-Jagalska et al., 1988, Dev. Genet. 9, 215-225), we investigated which of three signaling pathways activates the NA effector. Treatment of whole cells with a commercial pertussis toxin preparation (PT) inhibited cAMP-stimulated NA. However, endotoxin contamination of the PT appears to account for this effect. The synag7 mutation and caffeine treatment do not inhibit activation of NA by cAMP. Thus, neither activation of adenylate cyclase nor a G protein sensitive to PT treatment of whole cells is necessary for the NA response. Actin nucleation activity stimulated with folate is normal in vegetative fgdA cells. However, cAMP suppresses rather than activates NA in starving fgdA cells. This indicates that the components of the actin nucleation effector are present and that a pathway regulating the inhibitor(s) of nucleation remains functional in starving fgdA cells. The locus of the fgdA defect, a G protein implicated in phospholipase C activation, is directly or indirectly responsible for transduction of the stimulatory chemotactic signal from cAMP receptors to the nucleation effector in Dictyostelium.
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PMID:Transduction of the chemotactic signal to the actin cytoskeleton of Dictyostelium discoideum. 251 Oct 51

Two classes of early genes in Dictyostelium are differentially regulated by extracellular pulses of cAMP interacting with its cell-surface receptor, conditions that also regulate chemotaxis and aggregation. The pulse-repressed genes, such as K5, are induced shortly after the onset of starvation and are repressed a few hr later during aggregation by cAMP pulses. The pulse-induced genes (including D2, M3, and those encoding contact sites A, the G alpha protein subunit G alpha 2, and the cell-surface cAMP receptor) are maximally induced just prior to aggregation by pulses of cAMP and are subsequently repressed by sustained moderate levels of cAMP--conditions that exist sequentially in development. In this manuscript, we further analyze the requirement for cAMP pulses and characterize a requirement for protein synthesis for the expression of these two classes of genes. Our results indicate that the control of expression of both the pulse-induced and pulse-repressed genes requires other developmentally regulated factors in addition to starvation and cAMP pulses. We also identified another early gene, F9, whose expression is stimulated upon starvation, is not responsive to cAMP, and is hyperstimulated by cycloheximide, in a manner similar to the cycloheximide stimulation of c-fos and other serum-induced genes in mammalian cells. Examination of the kinetics of expression of the pulse-induced genes in a mutant blocked in the cAMP relay pathway indicates that their expression is controlled by a two-phase process. The first phase requires starvation and CMF, an extracellular conditioned medium factor, and results in a low level of expression. The second phase requires establishment of the cAMP signal-relay system and induces the genes to a high level. Both phases require prior and concomitant protein synthesis. Some of the members of the pulse-induced class encode elements of the cAMP signal-relay system that controls aggregation, indicating a feedback autoregulation. The two-phase process might allow the "finetuning" of the level of expression of genes involved in aggregation.
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PMID:Two-phase regulatory pathway controls cAMP receptor-mediated expression of early genes in Dictyostelium. 253 21

Carnitine palmitoyltransferase (CPT total) activity and synthesis increase in states where the insulin/glucagon ratio is low, such as starvation and diabetes [Brady & Brady (1987) Biochem. J. 246, 641-646]. However, the effect of glucagon and insulin on CPT synthesis is unknown. The present experiments were designed to determine the effect of glucagon, cAMP [8-(chlorophenylthio) cyclic AMP], and insulin + cAMP on CPT transcription and mRNA amounts over time after injection. The CPT protein that was purified, used to generate antibody, and cloned in these studies was the 68 kDa mitochondrial protein described previously [Brady & Brady (1987) Biochem. J. 246, 641-646; Brady, Feng & Brady (1988) J. Nutr. 118, 1128-1136; Brady & Brady (1989) Diabetes 38, in the press]. Saline-injected control rats exhibited a 2-fold increase in hepatic CPT transcription rate and CPT mRNA over the 5 h experiment from 09:00 to 14:00 h. The effect was most probably due to the fasting state of the rats during the day. Glucagon injection caused an 8-fold increase in transcription rate by 90 min and a 4-fold increase in CPT mRNA by 90-120 min. The cAMP effect had reached a peak by the first time point taken (15 min). Transcription rate was increased 4-fold and CPT mRNA was increased 3-fold at this time. The combination of cAMP + insulin injection did not produce any significant increase in transcription rate or CPT mRNA over the saline-injected controls. CPT mRNA and transcription rate showed a clear dose-response to glucagon injection from 0 to 150 micrograms/100 g body wt. Total CPT activity and immunoreactive CPT were not increased during these experiments. The data indicate that glucagon and insulin interact in control of transcription rate and amount of CPT mRNA, but that increases in CPT immunoreactive protein and activity are temporally delayed. This lag probably relates to the half-life of the CPT protein in vivo, which has been estimated as 2-7 days.
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PMID:Regulation of carnitine palmitoyltransferase in vivo by glucagon and insulin. 254 60

Argininosuccinate synthetase and argininosuccinate lyase catalyze the synthesis of arginine from citrulline in kidney and also serve as components of the urea cycle in liver of ureotelic animals. Dietary and hormonal regulation of mRNAs encoding these enzymes have been well studied in liver but not in kidney. Messenger RNAs for these enzymes are localized within the renal cortex. Starvation and extreme variations in dietary protein content (0% vs 60% casein) produced 2.6- to 3.5-fold increases in mRNA abundance for these two enzymes in rat kidney. Argininosuccinate lyase mRNA was not induced by dibutyryl cAMP, dexamethasone, or a combination of the two agents. In contrast, argininosuccinate synthetase mRNA was induced 2-fold by dibutyryl cAMP but was unresponsive to dexamethasone. Thus, diet and hormones regulate levels of these mRNAs in rat kidney, but the responses are both qualitatively and quantitatively distinct from the responses previously reported for rat liver.
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PMID:Nutritional and hormonal regulation of mRNA abundance for arginine biosynthetic enzymes in kidney. 254 41

The yeast Saccharomyces cerevisiae contains two functionally redundant genes RAS1 and RAS2, which are homologous to the mammalian ras gene family and are required for vegetative growth. We isolated and characterized five temperature-sensitive alleles of RAS2. In a ras1 strain, these alleles cause growth arrest at the G1 stage of the cell cycle. Revertants capable of growth at the nonpermissive temperature define four recessive, extragenic complementation groups. Suppressors in one complementation group (designated yak1) are particularly intriguing because they appear to alleviate only the growth defect of the temperature-sensitive ras mutants and do not show any of the phenotypes, such as heat shock sensitivity or starvation sensitivity, associated with increased production of cAMP. The YAK1 gene has been cloned, and disruptions generated in vitro reveal that it is not essential for growth and that its loss confers growth to a strain deleted for tpk1, tpk2, and tpk3, the structural genes for the catalytic subunit of the cAMP-dependent protein kinase. These results place Yak1 downstream from, or on a parallel pathway to, the kinase step in the Ras/cAMP pathway. Finally, the coding region predicts a protein with significant homology to the family of protein kinases, suggesting that loss of cAMP-dependent protein kinase function can be suppressed by the loss of a second protein kinase.
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PMID:Loss of Ras activity in Saccharomyces cerevisiae is suppressed by disruptions of a new kinase gene, YAKI, whose product may act downstream of the cAMP-dependent protein kinase. 255 53

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