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)

The neu proto-oncogene product has been found to exist in two interconvertible forms in G8/DHFR mouse fibroblasts. The 185-kilodalton form (p185) present in growing cells is replaced by a 175-kilodalton form (p175) under conditions of serum starvation. This low molecular weight form accounts almost exclusively for the phosphotyrosine content of the receptor and is associated with increased tyrosine kinase activity. Addition of serum, platelet-derived growth factor or tumor promoter induces conversion of p175 to p185 within minutes, and this increase in molecular weight is associated with phosphorylation of serine and threonine; removal of serum growth factors is followed by replacement of p185 with p175 over several hours. Unlike G8/DHFR cells, the human breast cancer cell line SK-Br-3 expresses a high molecular weight neu/HER2 receptor with unchanged phosphotyrosine content in both serum-starved and serum-stimulated cultures. These findings indicate that activation of the neu proto-oncogene product in G8/DHFR cells may be regulated in part by protein kinase C-mediated receptor transmodulation rather than by ligand availability alone.
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PMID:Modulation of a Mr 175,000 c-neu receptor isoform in G8/DHFR cells by serum starvation. 197 80

IRS-1 (insulin receptor substrate-1) is a major substrate for the insulin receptor tyrosine kinase. After phosphorylation by the insulin receptor, IRS-1 binds to the specific molecules which possess SH2 (src homology 2) domain such as 85 kDa subunit of phosphatidylinositol 3 kinase and may mediate insulin signals. The regulation of IRS-1 has been analyzed in animal models of insulin resistance, and its mechanism has been studied in culture cells. In animal models of insulin resistance, phosphorylation of IRS-1 was mainly regulated by the insulin receptor tyrosine kinase both in liver and muscle. However, IRS-1 protein level was differently regulated in muscle and liver. In muscle, IRS-1 protein decreased with dexamethasone treatment and in hypoinsulinemic states such as starvation and streptozotosine-induced diabetes and showed no change in hyperinsulinemic states such as obesity. In liver, IRS-1 protein increased with dexamethasone treatment and hypoinsulinemic states and decreased in hyperinsulinemic states. In cultured cell such as 3T3-L1 or 3T3-F442A adipocytes, IRS-1 was negatively regulated both by insulin and dexamethasone by different mechanisms. Insulin regulates the IRS-1 expression at protein level mainly by decreasing the half life of IRS-1 protein, and dexamethasone regulates it at mRNA level mainly by decreasing the half life of IRS-1 mRNA.
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PMID:[The expression of the insulin receptor substrate-1 (IRS-1) and analysis of its mechanism]. 789 62

Oral vanadate administration has been demonstrated to normalize blood glucose levels in ob/ob and db/db mice and streptozotocin (STZ) diabetic rats. The exact mechanism of this vanadate effect is uncertain, since there are no consistent effects on the insulin receptor tyrosine kinase activity or phosphotyrosine phosphatase activity. We have therefore studied the postreceptor actions of vanadate, focusing our attention on the steady-state levels of mRNA of enzymes involved in carbohydrate metabolism. When compared with their lean (ob/+) controls, the livers of ob/ob mice exhibited an approximately 90% reduction in the levels of phosphoenolpyruvate carboxykinase (PEPCK) mRNA and twofold to fivefold higher levels of the mRNAs for glyceraldehyde-3-phosphate dehydrogenase (GAPDH), the "liver beta-cell" glucose transporter (GLUT2), and the proto-oncogene c-myc. Administration of sodium vanadate (0.25 mg/mL) in the drinking water of ob/ob mice over a 45-day period resulted in a near normalization of blood glucose and increased PEPCK mRNA levels more than ninefold. Starvation of the ob/ob mice for 24 to 48 hours also increased PEPCK mRNA levels by fourfold to 15-fold. Vanadate treatment did not alter mRNA levels of any other proteins studied and had no effect on PEPCK mRNA in ob/+ mice. However, 1 to 100 mumol/L vanadate produced a concentration-dependent increase in PEPCK mRNA levels in an H35 hepatoma cell line, an effect opposite to the suppression of PEPCK mRNA produced by insulin. In summary, hyperglycemia in the ob/ob mouse is characterized by decreased expression of PEPCK and increased expression of GAPDH mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vanadate normalizes hyperglycemia and phosphoenolpyruvate carboxykinase mRNA levels in ob/ob mice. 796 88

In previous studies, we related increased elastolytic activity in pulmonary arteries (PA) with endothelial injury to the later development of PA hypertension in rats. As the mechanism causing the increased PA elastase was unknown, we hypothesized that serum factors which are accessible to vascular smooth muscle cells (SMC) following endothelial injury stimulate their elastolytic activity. To test this, we developed an in vitro assay in which we added [3H]-elastin to cultured vascular SMC after 24 h serum starvation and monitored elastolysis following a further 24 h incubation with fetal bovine serum (FBS). We observed that serum induced increased elastolytic activity in both PA and aorta-derived SMC but not in endothelial cells or SMC with low basal levels of elastolytic activity. Maximum stimulation of SMC elastolytic activity occurred with a concentration as low as 1% FBS and despite elastase inhibitors in serum, suggesting that the activity is confined to the immediate pericellular region where enzyme concentration is high. Serum-stimulated elastolytic activity was not reproduced by growth factors or cytokines known to be associated with vascular disease or to induce release of elastases in other cells. The serum inducing elastolytic activity was heat and acid labile. It was associated with increased elastin adhesion to the 67 kD elastin binding protein on SMC surfaces and was prevented by tyrosine kinase inhibitors but not protein kinase C or A inhibitors. Our studies therefore suggest a mechanism whereby serum induction of SMC elastase requires signalling through the elastin binding protein and activation of tyrosine kinase.
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PMID:Serum-induced vascular smooth muscle cell elastolytic activity through tyrosine kinase intracellular signalling. 802 Dec 92

Butyrolactone I is a selective inhibitor of the cyclin-dependent kinase (cdk) family. It inhibits both cdk2 and cdc2 kinase, but scarcely affects C-kinase, A-kinase, casein kinases, MAP kinase or EGF receptor-tyrosine kinase (Kitagawa et al., 1993, Oncogene, 8, 2425-2432). We studied the effects of butyrolactone I on the cell cycle as well as on phosphorylation of retinoblastoma protein (pRB). Butyrolactone I inhibited phosphorylation of pRB catalyzed by cyclin A-cdk2 produced by baculovirus in vitro. Furthermore, it inhibited phosphorylation of pRB and cell cycle progression from G1 to S phase in WI38 cell cultures. WI38 cells arrested at the G0 phase by serum starvation progressed in the cell cycle after serum stimulation. pRB was phosphorylated after 10 h serum stimulation. Incorporation of [3H]thymidine into the cells began to increase after 16 h serum stimulation. These processes were inhibited by butyrolactone I. Flow cytometric analysis showed that exposure to butyrolactone I inhibited progression of the cell cycle from G1 to S phase. These data suggested that initiation of DNA synthesis was inhibited by butyrolactone I and that the cell cycle was arrested in the G1 phase. Butyrolactone I also inhibited H1 histone phosphorylation in human WI38 cells and their G2/M progression. tsFT210 cells, a temperature-sensitive cdc2 mutant cell line, were synchronized at G2/M at a nonpermissive temperature, butyrolactone I inhibited the cell cycle progression of these cells at G2/M at the permissive temperature. Thus butyrolactone I, a cyclin-dependent kinase family inhibitor, which prevented the phosphorylations of the cell cycle-regulating proteins pRB and H1 histone, inhibited the cell cycle at G1/S and G2/M, respectively. These results suggest that the phosphorylations of pRB and H1 histone may play crucial roles in G1/S and G2/M progression, respectively, although it is possible that phosphorylations of other proteins by cdks are involved in G1/S and G2/M progression.
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PMID:A cyclin-dependent kinase inhibitor, butyrolactone I, inhibits phosphorylation of RB protein and cell cycle progression. 805 18

Beta-actin mRNA is localized in the leading lamellae of chicken embryo fibroblasts (CEFs) (Lawrence, J., and R. Singer. 1986. Cell. 45:407-415), close to where actin polymerization in the lamellipodia drives cellular motility. During serum starvation beta-actin mRNA becomes diffuse and non-localized. Addition of FCS induces a rapid (within 2-5 min) redistribution of beta-actin mRNA into the leading lamellae. A similar redistribution was seen with PDGF, a fibroblast chemotactic factor. PDGF-induced beta-actin mRNA redistribution was inhibited by the tyrosine kinase inhibitor herbimycin, indicating that this process requires intact tyrosine kinase activity, similar to actin filament polymerization and chemotaxis. Lysophosphatidic acid, which has been shown to rapidly induce actin stress fiber formation (Ridley, A., and A. Hall. 1992. Cell. 790:389-399), also increases peripheral beta-actin mRNA localization within minutes. This suggests that actin polymerization and mRNA localization may be regulated by similar signaling pathways. Additionally, activators or inhibitors of kinase A or C can also delocalize steady-state beta-actin mRNA in cells grown in serum, and can inhibit the serum induction of peripherally localized beta-actin mRNA in serum-starved CEFs. These data show that physiologically relevant extracellular factors operating through a signal transduction pathway can regulate spatial sites of actin protein synthesis, which may in turn affect cellular polarity and motility.
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PMID:Beta-actin mRNA localization is regulated by signal transduction mechanisms. 806 58

A tyrosine kinase inhibitor, erbstatin, increased the number of M-phase cells in exponentially growing NRK, NIH3T3, and RSV-NRK cells. In synchronized NRK cells prepared by serum starvation or hydroxyurea treatment, erbstatin also increased the number of M-phase cells in the presence of serum when added before M-phase. Erbstatin did not inhibit serum-induced DNA synthesis at all. The accumulated M-phase cells later divided even in the presence of erbstatin, indicating that the effect of erbstatin is reversible. An inactive analogue, 5'-O-methylerbstatin, did not increase the number of mitotic figures. Flow cytometric analysis indicated that erbstatin reversibly accumulated 4n DNA containing cells when added to G1/S-synchronized NRK cells. Increased cellular H1 kinase activity at M-phase is decreased after mitosis, and this decrease was inhibited by erbstatin. Thus tyrosine kinase is suggested to be involved in the progression of the M-phase.
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PMID:Inhibition of serum-induced M-phase progression by a tyrosine kinase inhibitor, erbstatin. 833 39

Human breast cancer MCF-7 cells, growth-arrested by serum starvation, were stimulated with recombinant human insulin-like growth factor-I (IGF-I). An increase in DNA synthesis was induced 20 hr later, which was as effective as that induced by serum. The increase in DNA synthesis was significantly inhibited either by antibody to the IGF-I receptor or by the tyrosine kinase inhibitor, methyl-2,5-dihydroxycinnamate (2,5-MeC). The IGF-I-induced DNA synthesis coincided with an elevated level of phosphorylation of p53 on tyrosine and an alteration in the subcellular distribution of the protein from the nucleus to the cytoplasm. Whereas the increases in DNA synthesis and p53 phosphorylation were inhibited by antibody to the IGF-I receptor and by 2,5-Mec, the nuclear exclusion of p53 was prevented by the antibody and also, although not significantly, by 2,5-Mec. The results suggest that growth stimulation of MCF-7 cells by IGF-I is accompanied by tyrosine phosphorylation and nuclear exclusion of p53.
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PMID:Association of insulin-like growth-factor-I-induced DNA synthesis with phosphorylation and nuclear exclusion of p53 in human breast cancer MCF-7 cells. 837 29

Activation of phosphatidylinositol-3-kinase (PI3K) is one of the earliest postreceptor events in the insulin signaling pathway. Incubation of soleus muscles from lean mice with 50 nM insulin caused a 3-10-fold increase in antiphosphotyrosine-immunoprecipitable PI3K (antiPTyr-PI3K) activity within 2 min in muscle homogenates as well as both the cytosolic and membrane fractions. Insulin did not affect total PI3K activity. Both the antiPTyr-PI3K stimulation and activation of insulin receptor tyrosine kinase were dependent on hormone concentration. In muscles from obese, insulin-resistant mice, there was a 40-60% decrease in antiPTyr-PI3K activity after 2 min of insulin that was present equally in the cytosolic and membrane fractions. A significant reduction in insulin sensitivity was also observed. The defect appears to result from alterations in both insulin receptor and postreceptor signaling. Starvation of obese mice for 48 h, which is known to reverse insulin resistance, normalized the insulin response of both PI3K and the receptor tyrosine kinase. The results demonstrate that: (a) antiPTyr-PI3K activity is responsive to insulin in mouse skeletal muscle, (b) both the insulin responsiveness and sensitivity of this activity are blunted in insulin-resistant muscles from obese mice, (c) these alterations result from a combination of insulin receptor and postreceptor defects, and (d) starvation restores normal insulin responses.
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PMID:Defect in skeletal muscle phosphatidylinositol-3-kinase in obese insulin-resistant mice. 838 84

In self-fertile strains of the fission yeast Schizosaccharomyces pombe, nitrogen starvation initiates a program of sexual development in which cells express mating pheromones and receptors, arrest cell cycle progression in G1, and conjugate. This process is dependent on Rum1, an inhibitor of the Cdc2-Cdc13 and Cdc2-Cig2 cyclin B kinases. The M-phase induction activity of Cdc2-Cdc13 is inhibited by Wee1 tyrosine kinase, which phosphorylates Cdc2 on tyrosine-15. We report here that Wee1 activity is also important for mating. This discovery arose from studies of Nim1, a kinase which promotes mitosis by inhibiting Wee1. Nim1 was previously thought to have an important role in promoting mitosis during nitrogen starvation, but our studies revealed that Nim1 protein drops to an undetectable level within 15 min of nitrogen depletion. In contrast, Wee1 remains abundant, and tyrosine-phosphorylated Cdc2 is detected for at least 4 h after resuspension of cells in nitrogen-free medium. This suggested that maintenance of Wee1 activity may be important during the early stages of nitrogen starvation, a proposal confirmed by the observation that mating efficiency is reduced ca. fivefold in wee1- cells. Transcriptional induction of genes encoding mating factors and receptors is also delayed in wee1- cells. The wee1- mating defect is suppressed by deletion of cig2+, which encodes a B-type cyclin that promotes the onset of S and inhibits conjugation. These findings indicate that Wee1 and Rum1 act jointly to inhibit Cdc2 and promote sexual development in nitrogen-starved cells.
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PMID:Roles of Wee1 and Nim1 protein kinases in regulating the switch from mitotic division to sexual development in Schizosaccharomyces pombe. 897 80


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