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: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chronic myelogenous leukemia is a stem cell tumor characterized by the t(9; 22)(q34; 11) translocation generating the BCR/ABL chimeric gene. The BCR/ABL fusion gene shows several functions, including inhibition of adhesion to stroma cells and extracellular matrix, activation of mitogenic signalings, inhibition of apoptosis, and degradation of inhibitory proteins, and thereby causes transformation of hematopoietic progenitors. Among its functions, the signal transduction pathways activated by the fusion gene are Ras and MAP kinase pathways, Jak-Stat pathways, PI3 kinase pathways, and Myc pathways. Molecular mechanisms in blastic crisis remains largely unknown. However, loss of functions of tumor suppressor genes such as p53, RB, and p16, activation of oncogene Ras, overexpression of Evi-1 might be involved in disease progression.
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PMID:[Disease-related gene and tumor progression]. 1176 32

Ovarian neoplasms display a wide range of phenotypic differentiation patterns. In the recent past, molecular genetic aberrations have been increasingly identified in various types of ovarian tumors. Granulosa cell tumors most often contain numeric chromosomal aberrations (monosomy 22, trisomy 12 and 14). Numeric changes can also be found in benign and borderline epithelial neoplasms, however without demonstrating specific patterns. K-ras mutations are characteristic for mucinous ovarian tumors and for serous borderline (LMP) tumors. In serous LMP tumors they are associated with low level microsatellite instability. Complex chromosomal aberrations are not detected in benign and borderline tumors. Invasive ovarian carcinomas show complex genetic changes. Chromosomal gains at 3q26, 8q24 and 20q13 apparently represent early lesions, whereas loss of material of chromosomes 4, 13, 16, 18 and X is associated with tumor progression and poor prognosis. The main targets of chromosomal changes are regulatory genes of cell proliferation and apoptosis (e.g. p16, cyclin D1, Rb, p53, myc, bcl-2) and members of the signaling cascade of tyrosine kinase receptors (e.g. Her-2/neu, dab-2, K-ras, PI3-K, PTEN). The genetic alterations of ovarian neoplasms described so far apparently correlate with the different level of aggressiveness. However, they do not fully explain the spectrum of phenotypic variability of these tumors.
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PMID:[Phenotype--genotype--correlation in ovarian neoplasia]. 1189 92

Myofiber survival and suppression of anoikis depend in large part on the merosin (laminin-2/-4)-integrin alpha7beta1D cell adhesion system; however, the question remains as to the nature of the signaling molecules/pathways involved. In the present study, we investigated this question using the C2C12 cell model of myogenic differentiation and its merosin- and laminin-deficient derivatives. Herein, we report that: 1) of four members of the Src family of tyrosine kinases studied (p60Src, p53/56Lyn, p59Yes, or p60Fyn), the expression and activity of p60Fyn are found in myotubes exclusively; 2) a severe decrease of p60Fyn activity correlates with myotube apoptosis/anoikis induced by pharmocological compounds (herbimycin A or PP2) which inhibit tyrosine kinases of the Src family, by merosin deficiency and by beta1 integrin inhibition; 3) myoblast survival depends on Fak and the MEK/Erk pathway, in contrast to myotubes; 4) the PI3-K pathway is not involved in either myoblast or myotube survival; and 5) p38alpha SAPK stimulation and activity (but not that of p38beta) are required in the progression of myotube apoptosis/anoikis induced by p60Fyn inhibition, merosin deficiency or beta1 integrin-inhibition; however, p38 is not involved in myoblast apoptosis. Taken together, these results suggest that the promotion of myotube survival by the merosin-alpha7beta1D adhesion system involves p60Fyn, and that disruptions in this cell adhesion system induce myotube apoptosis/anoikis through a p38alpha SAPK-dependent pathway.
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PMID:Merosin-integrin promotion of skeletal myofiber cell survival: Differentiation state-distinct involvement of p60Fyn tyrosine kinase and p38alpha stress-activated MAP kinase. 1192 Jun 83

The HDM2 protein is a key regulator of the tumour suppressor, p53. Control of HDM2 function is critical for normal cell proliferation and stress responses, and it is becoming evident that multiple modifications of HDM2 can regulate its function within cells. In this study we show that HDM2 associated with the serine-threonine kinase, Akt, in response to growth factor stimulation of human primary cells. This association was concurrent with phosphorylation of Akt (at Ser 473), and resulted in elevated expression of HDM2 and enhanced nuclear localization. However, analysis of HDM2 proteins mutated at the consensus Akt recognition sites at serines 166 and 186 indicated that modification at these residues was not sufficient for the increased expression of the protein, which was blocked by the PI3 kinase inhibitor LY294002. Tryptic peptide and mutational analyses revealed evidence for an Akt phosphorylation site in HDM2 additional to the two consensus sites.
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PMID:Phosphorylation of HDM2 by Akt. 1196 Mar 68

Cell loss and neuritic/cytoskeletal lesions represent two of the major categories of dementia-associated structural abnormalities in Alzheimer's disease (AD). Cell loss is ultimately mediated by apoptosis and mitochondrial DNA damage due to enhanced sensitivity to oxidative stress, but the mechanism responsible for the neuritic/cytoskeletal lesions including the abnormal proliferation of cortical neurites is not known. This study examines the potential role of oxygen free radical injury as a factor contributing to both cell death and neuritic sprouting cascades in AD. PNET2 human neuronal cells were treated with H2O2 (8 micro M to 88 micro M) for 24 hours and then analyzed for viability, DNA damage, and pro-apoptosis, survival, and sprouting gene expression and signaling. H2O2-treatment resulted in dose-dependent increases in cell death due to genomic and mitochondrial DNA damage associated with increased levels of 8-OHdG and the p53 and CD95 pro-apoptosis genes, reduced levels of the Bcl-2 survival gene, activation of JNK and p38 stress kinases, and inhibition of PI3 kinase survival signaling. However, the H2O2-treated cells also manifested increased expression of growth and sprouting molecules, including GAP-43, nitric oxide synthase 3, neuronal thread protein (NTP; approximately 17 kD and approximately 21 kD forms), proliferating cell nuclear antigen, and phospho-Erk MAPK, and normal levels of the AD-associated approximately 41 kD NTP species, cyclin dependent kinase 5 (cdk-5), and phospho-tau. In addition, the H2O2-treated cells had increased levels of p25, the catalytically active and stable cleavage product of p35, which regulates cdk-5 activity. Previous studies demonstrated p25 accumulation in AD brains and p25-induced hyperphosphorylation of tau and neuronal apoptosis. The findings herein suggest that oxygen free radical injury in human CNS neuronal cells is sufficient to cause some but not all of the pro-death and pro-sprouting molecular abnormalities that occur in AD.
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PMID:Oxygen free radical injury is sufficient to cause some Alzheimer-type molecular abnormalities in human CNS neuronal cells. 1221 88

Various cytokines have been shown to protect cells from p53-dependent apoptosis. To investigate the mechanism underlying cytokine-mediated survival, we used a Friend virus-transformed erythroleukemia cell line that expresses a temperature-sensitive p53 allele. These cells express the spleen focus-forming virus-encoded envelope glycoprotein gp55 that allows the cells to proliferate in the absence of erythropoietin (EPO). These cells respond to p53 activation at 32 degrees C by undergoing G(1) cell cycle arrest and apoptosis. In the presence of EPO, p53 activation leads only to prolonged but viable G(1) arrest. These findings indicate that EPO functions as a survival factor and that gp55/EPO receptor signaling is distinct from EPO/EPO receptor signaling. We demonstrate that p53-dependent apoptosis results in mitochondrial damage as shown by loss of mitochondrial membrane potential, increase in intracellular calcium, and release of mitochondrial cytochrome c into the cytosol. EPO prevented all of these changes including the subsequent activation of caspases. We identify an intrinsic phosphatidylinositol-3'-OH kinase/protein kinase B (PI3'K/PKB)-dependent survival pathway that is constitutively active in these cells. This survival pathway limits p53-dependent apoptosis. We propose that EPO promotes survival through a distinct pathway that is dependent on JAK2 but independent of STAT5 and PI3'K.
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PMID:The death-promoting activity of p53 can be inhibited by distinct signaling pathways. 1239 87

Ultraviolet (UV) irradiation produces DNA photoproducts that are blocks to DNA replication by normal replicative polymerases. A specialized, damage-specific, distributive polymerase, Pol H or Pol h, that is the product of the hRad30A gene, is required for replication past these photoproducts. This polymerase is absent from XP variant (XP-V) cells that must employ other mechanisms to negotiate blocks to DNA replication. These mechanisms include the use of alternative polymerases or recombination between sister chromatids. Replication forks arrested by UV damage in virus transformed XP-V cells degrade into DNA double strand breaks that are sites for recombination, but in normal cells arrested forks may be protected from degradation by p53 protein. These breaks are sites for binding a protein complex, hMre11/hRad50/Nbs1, that colocalizes with H2AX and PCNA, and can be visualized as immunofluorescent foci. The protein complexes need phosphorylation to activate their DNA binding capacity. Incubation of UV irradiated XP-V cells with the irreversible kinase inhibitor wortmannin, however, increased the yield of Mre11 focus-positive cells. One interpretation of this observation is that two classes of kinases are involved after UV irradiation. One would be a wortmannin-resistant kinase that phosphorylates the Mre11 complex. The other would be a wortmannin-sensitive kinase that phosphorylates and activates the p53/large T in SV40 transformed XP-V cells. The sensitive class corresponds to the PI3-kinases of ATM, ATR, and DNA-PK, but the resistant class remains to be identified. Alternatively, the elevated yield of Mre11 foci positive cells following wortmannin treatment may reflect an overall perturbation to the signaling cascades regulated by wortmannin-sensitive PI3 related kinases. In this scenario, wortmannin could compromise damage inducible-signaling pathways that maintain the stability of stalled forks, resulting in a further destabilization of stalled forks that then degrade, with the formation of DNA double strand breaks.
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PMID:DNA replication arrest in XP variant cells after UV exposure is diverted into an Mre11-dependent recombination pathway by the kinase inhibitor wortmannin. 1245 48

BACKGROUND: Malignant rhabdoid tumors (MRTs) are extremely aggressive and resist current radio- and chemotherapic treatments. To gain insight into the dysfunctions of MRT cells, the apoptotic response of a model cell line, MON, was analyzed after exposure to several genotoxic and non-genotoxic agents employed separately or in association. RESULTS: Fluorescence microscopy of chromatin morphology and electrophoretic analysis of internucleosomal DNA fragmentation revealed that MON cells were, comparatively to HeLa cells, resistant to apoptosis after treatment with etoposide, cisplatin (CisPt) or X-rays, but underwent some degree of apoptosis after ultraviolet (UV) C irradiation. Concomitant treatment of MON cells with X-rays or vinblastine and the phosphatidylinositol 3-kinase (PI3-K) inhibitor wortmannin resulted in synergistic induction of apoptosis. Western blot analysis showed that the p53 protein was upregulated in MON cells after exposure to all the different agents tested, singly or in combination. In treated cells, the p53 downstream effectors p21WAF1/CIP1, Mdm2 and Bax were induced with some inconsistency with regard to the accumulation of p53. Poly ADP-ribose polymerase (PARP) cleavage, indicative of ongoing apoptosis, occurred in UVC-irradiated cells and, especially, in cells treated with combinations of X-rays or vinblastine with wortmannin. However, there was moderate or no PARP cleavage in cells treated with CisPt, X-rays, vinblastine or wortmannin singly or with the combinations X-rays plus CisPt or vinblastine and CisPt plus vinblastine or wortmannin. The synergistic effect on the induction of apoptosis exerted by some agent combinations corresponded with synergy in respect of MON cell growth inhibition. CONCLUSION: These results suggest abnormalities in the p53 pathway and apoptosis control in MRT cells. The Ras/PI3-K/AKT signaling pathway might also be deregulated in these cells by generating an excess of survival factors. These dysfunctions might contribute to the resistance of MRTs to current antineoplastic treatments and could warrant consideration in the search of new therapeutic approaches.
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PMID:Apoptotic response of malignant rhabdoid tumor cells. 1290 67

PTEN tumor suppressor serves as a major negative regulator of survival signaling mediated by PI3 kinase/AKT/protein kinase B pathway, and is inactivated in various human tumors. Elucidation of mechanisms responsible for PTEN expression is important for providing insight into strategies to control the loss of PTEN expression in human cancers. Although recent studies suggested that p53 and Egr-1 can modulate induced PTEN expression, the mechanism responsible for ubiquitous constitutive expression of PTEN remains elusive. PTEN mRNA contains a highly conserved and GC-rich 5'-untranslated region (5'-UTR). Recently, it has been shown that the long 5'-UTR sequences of several growth-regulated mRNAs contain promoters that can generate mRNAs with shorter 5'-UTRs. In this paper, we tested whether the 5'-UTR sequence of mouse PTEN contains a promoter that is responsible for constitutive expression of PTEN. We found that the long 5'-UTR sequence of mouse PTEN severely inhibits translation of PTEN and a heterologous gene firefly luciferase. Deletion of the most 5'-UTR sequence would enhance translation efficiency 100-fold. We also showed that the 5'-UTR sequence of mouse PTEN does not have an internal ribosome entry site (IRES) that can mediate cap-independent initiation of translation. Instead, we found that the 5'-UTR sequence of mouse PTEN contains a strong promoter that drives the production of a transcript with shorter 5'-UTRs, which can be translated with higher efficiency. This promoter was mapped to the region between -551 and -220 bases upstream of the translation start codon. Cotransfection analysis using Drosophila SL2 cells showed that Sp1 is one of the major transcription factors that can constitutively activate this promoter. Two endogenous PTEN transcripts with 5'-UTRs of 193 and 109 bases were found in DU145 and H226 cell lines. Based on these observations, we conclude that the PTEN expression may be regulated at both transcriptional and translational levels, and that the 5'-UTR sequence of PTEN contains a promoter that is responsible for constitutive PTEN expression.
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PMID:Regulation of constitutive expression of mouse PTEN by the 5'-untranslated region. 1291 34

Chronic ethanol consumption can cause sustained hepatocellular injury and inhibit the subsequent regenerative response. These effects of ethanol may be mediated by impaired hepatocyte survival mechanisms. The present study examines the effects of ethanol on survival signaling in the intact liver. Adult Long Evans rats were maintained on ethanol-containing or isocaloric control liquid diets for 8 weeks, after which the livers were harvested to measure mRNA levels, protein expression, and kinase or phosphatase activity related to survival or proapoptosis mechanisms. Chronic ethanol exposure resulted in increased hepatocellular labeling for activated caspase 3 and nuclear DNA damage as demonstrated using the TUNEL assay. These effects of ethanol were associated with reduced levels of tyrosyl phosphorylated (PY) IRS-1 and PI3 kinase, Akt kinase, and Erk MAPK activities and increased levels of phosphatase tensin homologue deleted on chromosome 10 (PTEN) mRNA, protein, and phosphatase activity in liver tissue. In vitro experiments demonstrated that ethanol increases PTEN expression and function in hepatocytes. However, analysis of signaling cascade pertinent to PTEN function revealed increased levels of nuclear p53 and Fas receptor mRNA but without corresponding increases in GSK-3 activity or activated BAD. Although fork-head transcription factor levels were increased in ethanol-exposed livers, virtually all of the fork-head protein detected by Western blot analysis was localized within the cytosolic fraction. In conclusion, chronic ethanol exposure impairs survival mechanisms in the liver because of inhibition of signaling through PI3 kinase and Akt and increased levels of PTEN. However, uncoupling of the signaling cascade downstream of PTEN that mediates apoptosis may account for the relatively modest degrees of ongoing cell loss observed in livers of chronic ethanol-fed rats.
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PMID:Potential role of PTEN phosphatase in ethanol-impaired survival signaling in the liver. 1293 97


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