Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

In response to nitrogen starvation, diploid cells of the budding yeast Saccharomyces cerevisiae differentiate into a filamentous, pseudohyphal growth form. This dimorphic transition is regulated by the Galpha protein GPA2, by RAS2, and by elements of the pheromone-responsive MAP kinase cascade, yet the mechanisms by which nitrogen starvation is sensed remain unclear. We have found that MEP2, a high affinity ammonium permease, is required for pseudohyphal differentiation in response to ammonium limitation. In contrast, MEP1 and MEP3, which are lower affinity ammonium permeases, are not required for filamentous growth. Deltamep2 mutant strains had no defects in growth rates or ammonium uptake, even at limiting ammonium concentrations. The pseudohyphal defect of Deltamep2/Deltamep2 strains was suppressed by dominant active GPA2 or RAS2 mutations and by addition of exogenous cAMP, but was not suppressed by activated alleles of the MAP kinase pathway. Analysis of MEP1/MEP2 hybrid proteins identified a small intracellular loop of MEP2 involved in the pseudohyphal regulatory function. In addition, mutations in GLN3, URE2 and NPR1, which abrogate MEP2 expression or stability, also conferred pseudohyphal growth defects. We propose that MEP2 is an ammonium sensor, generating a signal to regulate filamentous growth in response to ammonium starvation.
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PMID:The MEP2 ammonium permease regulates pseudohyphal differentiation in Saccharomyces cerevisiae. 948 21

Hepatocyte growth factor (HGF) is a potent mitogen for a variety of cell types, but it is also known as an antimitogenic factor for several types of tumor cell lines. The biological processes by which HGF inhibits tumor cell growth remain poorly understood. Here we report a comparative study of HGF-mediated signal transduction events between two opposite responding types of human hepatoblastoma cell lines, HuH6 and HepG2. Following serum starvation, both cell lines were cultured in hepatocyte growth medium (HGM), a chemically defined medium, in the presence or absence of HGF. Under these culture conditions, cell growth in HuH6 was promoted by HGF, while it was inhibited in HepG2. Phosphorylation of p42/mitogen-activated protein (MAP) kinase was observed within 10 min after HGF stimulation in both cell lines. The level of phosphorylated MAP kinase in HuH6 declined to basal levels after 2 hr. However, in HepG2 the phosphorylated form was detectable at 6 hr. p21/waf1 was induced in both cell lines where levels peaked 4-6 hr after HGF stimulation. In HuH6, a marked decrease of p21/waf1 was observed at 8-12 hr, while a high level of p21/waf1 was sustained for at least 24 hr in HepG2. HGF treatment depressed cdk2 activity in a time-dependent manner in HepG2 while the activity increased in HuH6. When serum-starved HepG2 was growth stimulated with serum in the presence or absence of HGF, the cells treated with HGF underwent growth inhibition correlating with a sustained induction of p21/waf1 and a decrease of cdk2 activity. Immunoprecipitation analysis revealed accumulation of cdk2-associated p21/waf1 in the HGF-treated HepG2. Together, the results suggest that sustained induction of p21/waf1 mediates growth inhibition in HepG2 in the presence of HGF.
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PMID:Possible involvement of p21/waf1 in the growth inhibition of HepG2 cells induced by hepatocyte growth factor. 973 53

Nitrogen-starved diploid cells of the yeast Saccharomyces cerevisiae differentiate into a filamentous, pseudohyphal growth form. Recognition of nitrogen starvation is mediated, at least in part, by the ammonium permease Mep2p and the Galpha subunit Gpa2p. Genetic activation of the pheromone-responsive MAP kinase cascade, which is also required for filamentous growth, only weakly suppresses the filamentation defect of Deltamep2/Deltamep2 and Deltagpa2/Deltagpa2 strain. Surprisingly, deletion of Mep1p, an ammonium permease not previously thought to regulate differentiation, significantly enhances the potency of MAP kinase activation, such that the STE11-4 allele induces filamentation to near wild-type levels in Deltamep1/Deltamep1 Deltamep2/Deltamep2 and Deltamep1/Deltamep1 Deltagpa2/Deltagpa2 strains. To identify additional regulatory components, we isolated high-copy suppressors of the filamentation defect of the Deltamep1/Deltamep1 Deltamep2/Deltamep2 mutant. Multicopy expression of TEC1, PHD1, PHD2 (MSS10/MSN1/FUP4), MSN5, CDC6, MSS11, MGA1, SKN7, DOT6, HMS1, HMS2, or MEP2 each restored filamentation in a Deltamep1/Deltamep1 Deltamep2/Deltamep2 strain. Overexpression of SRK1 (SSD1), URE2, DAL80, MEP1, or MEP3 suppressed only the growth defect of the Deltamep1/Deltamep1 Deltamep2/Deltamep2 mutant strain. Characterization of these genes through deletion analysis and epistasis underscores the complexity of this developmental pathway and suggests that stress conditions other than nitrogen deprivation may also promote filamentous growth.
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PMID:Regulators of pseudohyphal differentiation in Saccharomyces cerevisiae identified through multicopy suppressor analysis in ammonium permease mutant strains. 983 22

In response to nitrogen starvation, diploid cells of the yeast Saccharomyces cerevisiae differentiate to a filamentous growth form known as pseudohyphal differentiation. Filamentous growth is regulated by elements of the pheromone mitogen-activated protein (MAP) kinase cascade and a second signaling cascade involving the receptor Gpr1, the Galpha protein Gpa2, Ras2, and cyclic AMP (cAMP). We show here that the Gpr1-Gpa2-cAMP pathway signals via the cAMP-dependent protein kinase, protein kinase A (PKA), to regulate pseudohyphal differentiation. Activation of PKA by mutation of the regulatory subunit Bcy1 enhances filamentous growth. Mutation and overexpression of the PKA catalytic subunits reveal that the Tpk2 catalytic subunit activates filamentous growth, whereas the Tpk1 and Tpk3 catalytic subunits inhibit filamentous growth. The PKA pathway regulates unipolar budding and agar invasion, whereas the MAP kinase cascade regulates cell elongation and invasion. Epistasis analysis supports a model in which PKA functions downstream of the Gpr1 receptor and the Gpa2 and Ras2 G proteins. Activation of filamentous growth by PKA does not require the transcription factors Ste12 and Tec1 of the MAP kinase cascade, Phd1, or the PKA targets Msn2 and Msn4. PKA signals pseudohyphal growth, in part, by regulating Flo8-dependent expression of the cell surface flocculin Flo11. In summary, the cAMP-dependent protein kinase plays an intimate positive and negative role in regulating filamentous growth, and these findings may provide insight into the roles of PKA in mating, morphogenesis, and virulence in other yeasts and pathogenic fungi.
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PMID:Cyclic AMP-dependent protein kinase regulates pseudohyphal differentiation in Saccharomyces cerevisiae. 1037 37

Activating mutations within the K-ras gene have been found in up to 90% of pancreatic carcinomas. Although multiple Ras effector pathways have been identified, the Raf protein kinases which are upstream regulators of the mitogen-activated protein kinases (MAPK/Erk) are believed to be the primary mitogenic effectors. Constitutive upregulation of this pathway by oncogenic ras is thought to promote cellular transformation. To explore the biological effects of mutated K-ras, we analyzed the Ras signaling pathway in a panel of cell lines derived from human pancreatic carcinomas. We found that despite high levels of Ras-GTP in each cell line expressing mutant K-ras, elevated levels of active Erk1 and Erk2 were not detectable under conditions of exponential growth or serum-starvation. Depending upon the cell line, the block in Erk signaling was observed to occur at either the level of Raf or Erk. Increased levels of active Erk1 and Erk2 were detected in only 2 out of 10 normal tissue-matched primary pancreatic tumors with mutated K-ras. Our results suggest that Erk signaling is not aberrantly upregulated in pancreatic cancers containing oncogenic K-ras mutations. The lack of Erk activation observed in both cell lines and primary tumor tissue suggests that constitutive Erk activation may not be required for tumor maintenance or progression in K-ras transformed pancreatic cells. We hypothesize that other Ras-dependent signaling pathways or an unidentified Raf/Mek-dependent pathway may be important for carcinogenesis in the pancreas. These findings may have important implications for drug treatment strategies which currently target the MAP kinase branch of the Ras signaling pathway.
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PMID:Lack of elevated MAP kinase (Erk) activity in pancreatic carcinomas despite oncogenic K-ras expression. 1040 37

Cryptococcus neoformans is a fungal pathogen that causes meningitis in immunocompromised hosts. The organism has a known sexual cycle, and strains of the MATalpha mating type are more virulent than isogenic MATa strains in mice, and they are more common in the environment and infected hosts. A C. neoformans homolog of the STE12 transcription factor that regulates mating, filamentation, and virulence in Saccharomyces cerevisiae and Candida albicans was identified previously, found to be encoded by a novel region of the MATalpha mating type locus, and shown to enhance filamentous growth when overexpressed. We have disrupted the C. neoformans STE12 gene in a pathogenic serotype A isolate. ste12 mutant strains exhibit a severe defect in filamentation and sporulation (haploid fruiting) in response to nitrogen starvation. In contrast, ste12 mutant strains have only modest mating defects and are fully virulent in two animal models compared to the STE12 wild-type strain. In genetic epistasis experiments, STE12 functions in a MAP kinase cascade to regulate fruiting, but not mating. Thus, the C. neoformans STE12alpha transcription factor homolog plays a specialized function in haploid fruiting, but it is dispensable or redundant for mating and virulence. The association of the MATalpha locus with virulence may involve additional genes, and other transcription factors that regulate mating and virulence remain to be identified.
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PMID:The STE12alpha homolog is required for haploid filamentation but largely dispensable for mating and virulence in Cryptococcus neoformans. 1058 Dec 70

Cryptococcus neoformans is an opportunistic fungal pathogen with a defined sexual cycle. The gene encoding a heterotrimeric G-protein beta subunit, GPB1, was cloned and disrupted. gpb1 mutant strains are sterile, indicating a role for this gene in mating. GPB1 plays an active role in mediating responses to pheromones in early mating steps (conjugation tube formation and cell fusion) and signals via a mitogen-activated protein (MAP) kinase cascade in both MATalpha and MATa cells. The functions of GPB1 are distinct from those of the Galpha protein GPA1, which functions in a nutrient-sensing cyclic AMP (cAMP) pathway required for mating, virulence factor induction, and virulence. gpb1 mutant strains are also defective in monokaryotic fruiting in response to nitrogen starvation. We show that MATa cells stimulate monokaryotic fruiting of MATalpha cells, possibly in response to mating pheromone, which may serve to disperse cells and spores to locate mating partners. In summary, the Gbeta subunit GPB1 and the Galpha subunit GPA1 function in distinct signaling pathways: one (GPB1) senses pheromones and regulates mating and haploid fruiting via a MAP kinase cascade, and the other (GPA1) senses nutrients and regulates mating, virulence factors, and pathogenicity via a cAMP cascade.
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PMID:The G-protein beta subunit GPB1 is required for mating and haploid fruiting in Cryptococcus neoformans. 1059 37

In fission yeast Schizosaccharomyces pombe, ammonium starvation induces a growth arrest, a cell cycle exit in G(1) and a further switch to meiosis. This process is regulated by the cAMP-dependent protein kinase and the Wis1-dependent MAP kinase cascade, and downstream transcription factors. In order to understand how cells adapt their genetic programme to the switch from mitotic cycling to starvation, a differential transcript analysis comparing mRNA from exponentially growing and ammonium-starved cells was performed. Genes repressed by this stimulus mainly concern cell growth, i.e. protein synthesis and global metabolism. Comparison of the expression of two of them, the ribosomal proteins Rps6 and TCTP, in many different growing conditions, evidenced a strong correlation, suggesting that their transcriptions are coordinately regulated. Nevertheless, by repeating the ammonium starvation on strains constitutively activated for the PKA pathway (Deltacgs1), or unable to activate the Wis1-dependent MAP kinase pathway (Deltawis1), or with both characteristics (Deltacgs1+Deltawis1), the transcriptional inhibition was found to be governed either by the PKA pathway, or by the Wis1 pathway, or by both. These results suggest that during the switch from exponential growth to ammonium starvation, cell homeostasis is maintained by downregulating the transcription of the most expressed genes by a PKA and a Wis1-dependent process. Accession Nos for the S30 and L14 ribosomal protein cDNA sequences are AJ2731 and AJ2732, respectively.
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PMID:Identification and transcription control of fission yeast genes repressed by an ammonium starvation growth arrest. 1062 Jul 72

Pseudohyphal differentiation in the budding yeast Saccharomyces cerevisiae is induced in diploid cells in response to nitrogen starvation and abundant fermentable carbon source. Filamentous growth requires at least two signaling pathways: the pheromone responsive MAP kinase cascade and the Gpa2p-cAMP-PKA signaling pathway. Recent studies have established a physical and functional link between the Galpha protein Gpa2 and the G protein-coupled receptor homolog Gpr1. We report here that the Gpr1 receptor is required for filamentous and haploid invasive growth and regulates expression of the cell surface flocculin Flo11. Epistasis analysis supports a model in which the Gpr1 receptor regulates pseudohyphal growth via the Gpa2p-cAMP-PKA pathway and independently of both the MAP kinase cascade and the PKA related kinase Sch9. Genetic and physiological studies indicate that the Gpr1 receptor is activated by glucose and other structurally related sugars. Because expression of the GPR1 gene is known to be induced by nitrogen starvation, the Gpr1 receptor may serve as a dual sensor of abundant carbon source (sugar ligand) and nitrogen starvation. In summary, our studies reveal a novel G protein-coupled receptor senses nutrients and regulates the dimorphic transition to filamentous growth via a Galpha protein-cAMP-PKA signal transduction cascade.
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PMID:The G protein-coupled receptor gpr1 is a nutrient sensor that regulates pseudohyphal differentiation in Saccharomyces cerevisiae. 1065 15

Environmental signals, such as nutrient availability and physiological stresses, modulate the cell cycle and cell size of the fission yeast Schizosaccharomyces pombe. However, little is known about how these signals are transmitted to the central cell cycle regulator, Cdc2, the cyclin-dependent kinase that induces mitosis. We show here genetic evidence that medium alkalization stimulates mitosis and consequently reduces cell size, either through the Nim1-Wee1 cascade, which regulates the inhibitory phosphorylation of Cdc2 at Tyr(15), or through the Cdc2-activating phosphatase, Cdc25. Alkaline stress stimulates phosphorylation of Nim1, accumulation of Cdc25 and dephosphorylation of Cdc2 at Tyr(15). We also show that osmostress stimulates mitosis through two independent pathways: one stimulates accumulation of Cdc25, and another dephosphorylation of Cdc2 at Tyr(15). However, our analysis demonstrates that these environmental stresses can stimulate mitosis independently of dephosphorylation of Cdc2 at Tyr(15). The S. pombe MAP kinase, Spc1, was required for the steady-state level of Cdc25 in the normal cell cycle and for its accumulation in response to alkaline stress and nutritional starvation.
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PMID:Multiple pathways regulating fission yeast mitosis upon environmental stresses. 1080 22


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