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)

DNA topoisomerase II is a marker for the proliferation state of mammalian cells in culture, and the protein levels are markedly higher in exponentially growing cells than quiescent cells and can be downregulated by growth of the cells at high density and serum starvation. Correlation between ATF and TPA-repressed DNA topoisomerase II alpha (Topo II alpha) mRNA has been investigated during TPA-induced differentiation of HL-60 cells. Topo II alpha mRNA and unknotting activity were reduced at 24 hours in TPA-treated HL-60 cells. The level of Topo II alpha mRNA and the activity were gradually decreased in proportion to the concentration of TPA. Two DNA-protein complexes were formed by DNA mobility shift assay when ATF-binding site was incubated with nuclear extract prepared from TPA-free HL-60 cells, and the amount of ATF was vanished after TPA treatment. TPA-repressed Topo II alpha mRNA and ATF levels were partially restored after pretreatment of staurosporin. These results suggest that the reduced level of ATF may be important to the transcriptional repression of Topo II alpha gene during TPA-induced differentiation in HL-60 cells and related to protein kinase C signal pathway.
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PMID:Reduced level of ATF is correlated with transcriptional repression of DNA topoisomerase II alpha gene during TPA-induced differentiation of HL-60 cells. 978 37

The effect of serum starvation on the expression and phosphorylation of PKC-alpha and p53 in Chinese hamster V79 cells was investigated. Serum starvation led to growth arrest, rounding up of cells and the appearance of new PKC-alpha and p53 bands on Western blots. Prolonged incubation (> or = 48 hr) in serum-deprived medium led to cell detachment and death. Moving cells to fresh medium containing 10% serum before, but not after, cell detachment reversed the changes observed in PKC-alpha and p53, and also prevented later cell detachment. Radiolabelling studies showed that the higher-molecular-weight PKC-alpha and p53 bands result from increased phosphorylation, while a lower-molecular-weight PKC-alpha band reflects newly synthesized protein. Immunocomplex kinase assays have shown that the increased phosphorylation of PKC-alpha is associated with its increased activity. To study the relationship between PKC-alpha, p53 and cell death, cells were treated either with TPA, to down-regulate PKC or with staurosporine, to inhibit PKC activity. Staurosporine, a potent PKC inhibitor and inducer of programmed cell death, caused the appearance of new PKC-alpha and p53 bands similar to those induced by serum starvation. If serum starvation was preceded by prolonged (48 hr) TPA treatment to down-regulate PKC-alpha, cell detachment and death did not take place within the same time frame. Intracellular fractionation of cells demonstrated that increased expression of PKC-alpha and the appearance of the associated higher and lower molecular-weight bands occurred in the nucleus. These data highlight the association of PKC-alpha and p53 with cellular events leading to cell death.
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PMID:Effect of serum starvation on expression and phosphorylation of PKC-alpha and p53 in V79 cells: implications for cell death. 993 81

The serum deprivation response gene (SDPR, alias sdr) has been previously isolated for its high mRNA expression in serum-starved cells compared to contact-inhibited NIH3T3 cells; such regulation is not observed in single-oncogene transformed NIH3T3 cells after serum starvation. More recently Sdpr has been identified as a substrate of protein kinase C (PKC): this interaction determines the compartimentalization of PKC to caveolae, a plasma membrane invagination of which Sdpr is a major component. Lack of Sdpr-PKC interaction in transformed cells has been proposed to be involved in the alteration of PKC subcellular localization and substrate specificity. Here we report the cloning of the human SDPR homologue (HGMW-approved symbol SDPR) and its mapping to 2q32-q33 in the human genome. In analogy with the murine system, SDPR mRNA expression is increased when human fibroblasts are serum starved, it becomes down-regulated during synchronous cell-cycle reentry, but it is not induced in cells arrested by contact inhibition. Analysis of SDPR expression in human tissues reveals a near ubiquitous expression, with highest levels found in heart and lung. We show that human SDPR encodes PS-p68, a previously characterized phosphatidylserine-binding protein purified from human platelets. Accordingly, recombinant Sdpr is able to specifically bind phosphatidylserine in the absence of Ca2+. SDPR is homologous to two genes in the databank, one of which, srbc, is similarly regulated during growth arrest and encodes a phosphatidylserine-binding protein that is a substrate of PKC.
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PMID:The human serum deprivation response gene (SDPR) maps to 2q32-q33 and codes for a phosphatidylserine-binding protein. 1019 Oct 91

Oxytocin (OT) receptors (OTRs) have been demonstrated in a number of human breast tumors and tumor cells, but it was not clear whether the receptors were functional. We examined the regulation and function of OTR in a tumor cell line, Hs578T, derived from human breast. These cells expressed moderate levels of OTR when cultured in 10% FBS, as demonstrated by RT-PCR and binding analyses. Serum deprivation resulted in the loss of OTRs, with no effect on cell viability. Restoration of serum and addition of 1 microM dexamethasone (DEX) increased OTR levels by about 9-fold. Up-regulation was blocked by the addition of phospholipase C and PKC inhibitors. Serum/DEX treatment also increased steady state OTR messenger RNA levels. OT increased intracellular Ca2+ in a time- and dose-responsive manner, and the effects of OT were lost when OTRs were down-regulated by serum starvation. Serum/DEX up-regulation of OTR restored the responsiveness to OT. OT also stimulated ERK-2 (extracellular signal-regulated protein kinase) phosphorylation and PGE2 synthesis in Hs578T cells. In addition to showing that OTRs in the breast tumor cells are functional, these studies show that Hs578T cells can be used to study molecular regulation of OTR gene expression and intracellular signaling pathways stimulated by OT.
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PMID:Demonstration of functional oxytocin receptors in human breast Hs578T cells and their up-regulation through a protein kinase C-dependent pathway. 1021 79

Aminergic signalling in the CNS is terminated by clearance of neurotransmitters from the synapse via high affinity transporter molecules in the presynaptic membrane. Relatively recent sequence identification of these molecules has now permitted the initiation of studies of regulation of transporter function at the cellular and systems levels. In vitro studies provide evidence that the transporters for dopamine, serotonin, and gamma-aminobutyric acid (GABA) may be substrates for regulation by protein kinase C and protein kinase A signalling. Changes in energy balance and metabolic status, such as starvation, result in major shifts in hormonal output. It is now recognized that metabolic hormones such as insulin or the adrenal steroids can have significant acute and chronic effects on several aspects of CNS function. Data from this laboratory and others now provide evidence that insulin and adrenal and gonadal steroid hormones may regulate the synthesis and activity of the transporters. Future studies should permit elucidation of the cellular basis for endocrine regulation of neurotransmitter clearance, and thus, the role of endocrines in the maintenance of normal CNS aminergic signalling. The potential relevance of transporter regulation for the ketogenic diet is discussed.
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PMID:Endocrine regulation of neurotransmitter transporters. 1058 70

In primary cultured mouse epidermal cells, protein kinase C isozyme zeta (PKCzeta) consists of multiple forms, for example, low-salt eluted PKCzeta (1-PKCzeta; 79 and 85 kDa) and high-salt eluted PKCzeta (h-PKCzeta; 79 and 85 kDa) on anion-exchange column chromatography. In this study, biochemical and biophysical differences between 1-PKCzeta and h-PKCzeta were examined by using carcinogen-initiated mouse epidermal cell-line WYF31 cells, whose growth is stimulated by tumour promoter phorbol 12-myristate 13-acetate (PMA). The binding efficiency of h-PKCzeta to anti-PKCzeta antibody-affinity column was 10 times higher than that of 1-PKCzeta. T7-tagged rat PKCzeta overexpressed in WYF31 cells was recovered only in the high-salt eluted area on the anion-exchange column. Furthermore, when rat PKCzeta was stably overexpressed in WYF31 cells, the content of h-PKCzeta increased 4 to 5 times compared to that of parental cells, but the content of 1-PKCzeta was not altered. All of these results indicate that h-PKCzeta is the product of the PKCzeta gene (referred to as PKCzeta) and that 1-PKCzeta is closely related but different from PKCzeta (referred to as PKCzeta-related kinase). Interestingly, serum starvation of WYF31 cells caused a marked increase of the content of PKCzeta-related kinase with a concomitant decrease of PKCzeta content. These changes were reversed by stimulating the cell growth with 10% foetal calf serum. Prolonged treatment of starved cells with PMA, which induces the proliferation of WYF31 cells, also caused the downregulation of PKCzeta-related kinase. These results suggest that the expression levels of PKCzeta-related kinase and PKCzeta are differently regulated, and that the increased expression of PKCzeta-related kinase might play a significant role in the growth-suppression processes of WYF31 cells.
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PMID:Induction of protein kinase Czeta-related protein kinase by growth suppression in carcinogen-initiated epidermal cell-line WYF31 cells. 1067 43

Earlier we showed that in serum-starved (27 h), washed mouse fibroblasts and other cell lines 40-80 mM concentrations of ethanol (EtOH) potentiate, in a zinc (Zn2+)-dependent manner, the combined stimulatory effects of calcium (Ca2+) and insulin (Ins) on DNA synthesis. We now report that the promitogenic EtOH effects require removal of the used medium at least 6 h prior to treatments with EtOH, Zn2+, and Ins. If serum-starved (27 h) cells were continuously incubated for another 18-h period without replacing the medium, a secreted cellular factor moderately enhanced the mitogenic effect of Ins and simultaneously blocked the potentiating effect of EtOH on DNA synthesis measured during the last hour of treatments. However, the presence of Ca2+ (2.8 mM) plus Zn2+ (25 microM) or 25-300 nM phorbol 12-myristate 13-acetate (PMA) during the serum starvation period partially restored the promitogenic effect of EtOH. The PMA effect was blocked by the protein kinase C (PKC) inhibitor GF 109203X added for the second (18 h) period. Even at 300 nM, PMA failed to fully downregulate PKC-alpha, the major PKC isoform, over a 28-h period, suggesting that an activated PKC enzyme was involved in the restoration of EtOH effect. When EtOH (40-80 mM) was added for the entire serum starvation period and the incubations were continued for 18 h without removing the medium, EtOH inhibited both the combined actions of Ins and cellular factor as well as the promoting effect of newly added EtOH on Ins-dependent DNA synthesis. Coaddition of Zn2+ and PMA with EtOH prevented these inhibitory effects of EtOH. The results indicate that in mouse fibroblasts EtOH can both enhance and inhibit Ins-dependent DNA synthesis depending on the timing of EtOH treatment as well as the presence of Zn2+, cellular factors, and activators of the PKC system.
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PMID:Ethanol has multiple effects on DNA synthesis in fibroblasts depending on the presence of secreted growth regulators and zinc as well as the level of protein kinase C activation. 1101 28

MCF-7 breast cancer cells grow as adherent cells, but following overexpression of protein kinase C-alpha these cells (MCF-7-PKC-alpha cells) become anchorage-independent and exhibit increased tumorigenicity in nude mice. MCF-7-PKC-alpha cells are also sensitized to apoptosis in response to phorbol ester but not serum starvation. Flourescence-activated cell sorting revealed that several integrin subunits were down-regulated in MCF-7-PKC-alpha cells, however, the fibronectin receptor alpha 5 beta 1 was upregulated. MCF-7-PKC-alpha cells growing under non-adherent conditions underwent cell death when antibodies to alpha 5 beta 1 were added to growth media lacking serum but not when serum was present. Addition of soluble fibronectin to cells incubated without serum suppressed apoptosis triggered by anti-alpha 5 beta 1 antibodies but not by phorbol esters. MCF-7-PKC-alpha cells also were shown to express more fibronectin on their cell surface than MCF-7V cells (MCF-7 cells transfected with pSV(2)M(2)6 vector only). This study indicates that the survival of MCF-7-PKC-alpha cells under non-adherent conditions in the absence of serum results from the ligation of alpha 5 beta 1 with surface-bound fibronectin, which may account, in part, for the increased aggressiveness of these cells.
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PMID:Integrin alpha 5 beta 1 suppresses apoptosis triggered by serum starvation but not phorbol ester in MCF-7 breast cancer cells that overexpress protein kinase C-alpha. 1111 59

Intrinsic expression of the multidrug resistance (MDR) transporter P-glycoprotein (Pgp) may be regulated by reactive oxygen species (ROS). A transient expression of Pgp was observed during the growth of multicellular tumor spheroids. Maximum Pgp expression occurred in tumor spheroids with a high percentage of quiescent, Ki-67-negative cells, elevated glutathione levels, increased expression of the cyclin-dependent kinase inhibitors p27Kip1 and p21WAF-1 as well as reduced ROS levels and minor activity of the mitogen-activated kinase (MAPK) members c-Jun amino-terminal kinase (JNK), extracellular signal-regulated kinase ERK1,2, and p38 MAPK. Raising intracellular ROS by depletion of glutathione with buthionine sulfoximine (BSO) or glutamine starvation resulted in down-regulation of Pgp and p27Kip1, whereas ERK1,2 and JNK were activated. Down-regulation of Pgp was furthermore observed with low concentrations of hydrogen peroxide and epidermal growth factor, indicating that ROS may regulate Pgp expression. The down-regulation of Pgp following BSO treatment was abolished by agents interfering with receptor tyrosine kinase signaling pathways, i.e. the protein kinase C inhibitors bisindolylmaleimide I (BIM-1) and Ro-31-8220, the p21ras farnesyl protein transferase inhibitor III, the c-Raf inhibitor ZM 336372 and PD98059, which inhibits ERK1,2 activation. ROS involved as second messengers in receptor tyrosine kinase signaling pathways may act as negative regulators of Pgp expression.
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PMID:Down-regulation of intrinsic P-glycoprotein expression in multicellular prostate tumor spheroids by reactive oxygen species. 1127 18

G-protein coupled receptor (GPCR) agonists such as neuropeptides activate the insulin-like growth factor-1 receptor (IGF-IR) or the serine-threonine protein kinase Akt, suggesting that neuropeptides-GPCR signaling can cross-communicate with IGF-IR-Akt signaling pathways. Neutral endopeptidase 24.11 (NEP) is a cell-surface peptidase that cleaves and inactivates the neuropeptides endothelin-1 (ET-1) and bombesin, which are implicated in progression to androgen-independent prostate cancer (PC). We investigated the mechanisms of NEP regulation of neuropeptide-mediated cell survival in PC cells, including whether neuropeptide substrates of NEP induce phosphorylations of IGF-IR and Akt in PC cells. Western analyses revealed ET-1 and bombesin treatment induced phosphorylation of IGF-IRbeta and Akt independent of IGF-I in TSU-Pr1, DU145, and PC-3 PC cells, which lack NEP expression, but not in NEP-expressing LNCaP cells. Recombinant NEP and induced NEP expression in TSU-Pr1 cells using a tetracycline-repressive expression system inhibited ET-1-mediated phosphorylation of IGF-IRbeta and Akt, and blocked the protective effects of ET-1 against apoptosis induced by serum starvation. Incubation of TSU-Pr1 cells with specific kinase inhibitors together with ET-1 or bombesin showed that IGF-IR activation is required for neuropeptide-induced Akt phosphorylation, and that neuropeptide-induced Akt activation is predominantly mediated by Src and phosphatidylinositol 3-kinase but not by mitogen-activated protein kinase or protein kinase C. These data show that the neuropeptides ET-1 and bombesin stimulate ligand-independent activation of the IGF-IR, which results in Akt activation, and that this cross-communication between GPCR and IGF-IR signaling is inhibited by NEP.
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PMID:Neutral endopeptidase inhibits neuropeptide-mediated transactivation of the insulin-like growth factor receptor-Akt cell survival pathway. 1130 83


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