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)

We have shown that both tumor necrosis factor-alpha (TNF-alpha) and transforming growth factor-beta1 (TGF-beta1) inhibit the growth of the human papillary thyroid carcinoma (PTC) cell line, NPA. In previous work, we developed NPA cells that were resistant to the growth suppressive effect of TNF-alpha, called R30, R45, and R60. In this model there were alterations in the p55 and p75 TNF-alpha receptor signaling in the resistant cell lines. In the present work, we studied the action of TGF-beta1 in this PTC cell model. TGF-beta1 (111 pg/mL) inhibited the proliferation of NPA, R30, R45, and the R60 cell lines by 82.8%, 72.1%, 64.2%, and 24.2%, respectively. On Western analysis, TGF-beta1 reduced c-fos content with similar potency in the NPA and R60 cells. In contrast, TNF-alpha reduced c-fos content in the sensitive NPA cells, but failed to do so in the resistant R60 cells. TGF-beta1 reduced p53 content in the NPA but not in the R60 cells, while TNF-alpha did not affect the p53 content in these cells. Furthermore, the resistant cells had a lower baseline p53 content than the NPA cells. The resistant cells had a significantly increased growth rate. Enzyme-linked immunosorbent assay (ELISA) assays with specific antibody against human p53 showed no apparent increase in the mutant form of p53 in the resistant cells. There were also no mutant forms of Ha-Ras, Arg12p21, Val12p21, Asp12p21, and Asp13p21 detected in the resistant cells. The results showed that R30, R45, and R60 cells are partially resistant to TGFbeta1. The mechanisms of action of TNF-alpha and TGF-beta1 differ in their regulation of c-fos and p53 content. The increase in cell proliferation rate is apparently associated with a decrease of p53 content, but not with mutations of p53 or Ha-Ras.
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PMID:Transforming growth factor-beta1 resistance in a thyroid cancer model of tumor necrosis factor-alpha resistance. 984 25

Transcriptional coactivators may function as nuclear integrators by coordinating diverse signaling events. Here we show that the p65 (RelA) component of nuclear factor-kappaB (NF-kappaB) and p53 mutually repress each other's ability to activate transcription. Additionally, tumor necrosis factor-activated NF-kappaB is inhibited by UV light-induced p53. Both p65 and p53 depend upon the coactivator CREB-binding protein (CBP) for maximal activity. Increased levels of the coactivator relieve p53-mediated repression of NF-kappaB activity and p65-mediated repression of p53-dependent gene expression. Nuclear competition for limiting amounts of CBP provides a novel mechanism for altering the balance between the expression of NF-kappaB-dependent proliferation or survival genes and p53-dependent genes involved in cell cycle arrest and apoptosis.
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PMID:CREB-binding protein is a nuclear integrator of nuclear factor-kappaB and p53 signaling. 989 Sep 39

Several studies suggest that tumor necrosis factor-alpha (TNF) is able to overcome drug resistance in tumors. Whether TNF is able to do so in tumor cell lines that are drug resistant due to a mutation in the tumor suppressor gene p53 is unclear. Therefore, we studied the in vitro cytotoxic effects of TNF combined with various cytotoxic agents in a model consisting of a human ovarian cancer cell line containing endogenous wild-type p53 (wtp53) and sublines that were made drug resistant against various cytotoxic agents by transfection of several forms of mutated p53 (mtp53). Using the microculture tetrazolium assay, the cytotoxic effects of TNF alone, the cytotoxic agents VM-26, melphalan, cisplatin, vinblastine, paclitaxel, and mitoxantrone, plus the combined effects of 10 ng/ml TNF added 30 min before various concentrations of the cytotoxic agents were established. Compared with the control cell line (A2780/cmv), two cell lines transfected with mtp53 (A2780/m248 and A2780/m273) showed increased resistance against several cytotoxic agents but also an enhanced sensitivity to TNF. Interaction of TNF with the cytotoxic drugs was additive in the drug-sensitive control cell line as well as in the drug-resistant sublines. However, because of the increased sensitivity of A2780/m248 to TNF at the dose used for the combinations, the combination of TNF with several cytotoxic drugs reduced the level of resistance in A2780/m248 compared with the control cell line A2780/cmv. In conclusion, this study shows that addition of TNF can ameliorate resistance to cytotoxic agents in a subline that is drug-resistant because of mutated p53. This reduction in resistance by TNF is not due to synergistic interaction, but to collateral sensitivity to TNF.
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PMID:Combined cytotoxic effects of tumor necrosis factor-alpha with various cytotoxic agents in tumor cell lines that are drug resistant due to mutated p53. 992 99

Genotoxic stress triggers the activation of several sensor molecules, such as p53, JNK1/SAPK and c-Abl, and occasionally promotes the cells to apoptosis. We previously reported that JNK1/SAPK regulates genotoxic stress-induced apoptosis in p53-negative U937 cells by activating caspases. c-Abl is expected to act upstream of JNK1/SAPK activation upon treatment with genotoxic stressors, but its involvement in apoptosis development is still unclear. We herein investigated the kinase activities of c-Abl and JNK1/SAPK during apoptosis elicited by genotoxic anticancer drugs and tumor necrosis factor (TNF) in U937 cells and their apoptosis-resistant variant UK711 cells. We found that the activation of JNK1/SAPK and c-Abl correlated well with apoptosis development in these cell lines. Unexpectedly, however, the JNK1/SAPK activation preceded the c-Abl activation. Moreover, the caspase inhibitor Z-Asp suppressed c-Abl activation and the onset of apoptosis but not the JNK1/SAPK activation. Interestingly, c-Abl tyrosine kinase inhibition by CGP 57148 reduced apoptosis without interfering with JNK1/SAPK activation. These results indicate that c-Abl acts not upstream of JNK1/ SAPK but downstream of caspases during the development of p53-independent apoptosis and is possibly involved in accelerating execution of the cell death pathway.
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PMID:Activation of c-Abl tyrosine kinase requires caspase activation and is not involved in JNK/SAPK activation during apoptosis of human monocytic leukemia U937 cells. 1002 9

Progress in the treatment of solid tumors has been slow and sporadic. The efficacy of conventional chemotherapy in solid tumors is limited because tumors frequently have mutations in the p53 gene. Also, chemotherapy only kills rapidly dividing cells. Members of the tumor necrosis factor (TNF) family, however, induce apoptosis regardless of the p53 phenotype. Unfortunately, the cytotoxicity of TNF-alpha is limited by its activation of NF-kappaB and activation of NF-kappaB is proinflammatory. We have identified a compound called PG490, that is composed of purified triptolide, which induces apoptosis in tumor cells and sensitizes tumor cells to TNF-alpha-induced apoptosis. PG490 potently inhibited TNF-alpha-induced activation of NF-kappaB. PG490 also blocked TNF-alpha-mediated induction of c-IAP2 (hiap-1) and c-IAP1 (hiap-2), members of the inhibitor of apoptosis (IAP) family. Interestingly, PG490 did not block DNA binding of NF-kappaB, but it blocked transactivation of NF-kappaB. Our identification of a compound that blocks TNF-alpha-induced activation of NF-kappaB may enhance the cytotoxicity of TNF-alpha on tumors in vivo and limit its proinflammatory effects.
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PMID:PG490 (triptolide) cooperates with tumor necrosis factor-alpha to induce apoptosis in tumor cells. 1022 10

Here we report the identification and characterization of a novel protein, RelA-associated inhibitor (RAI), that binds to the NF-kappaB subunit p65 (RelA) and inhibits its transcriptional activity. RAI gene was isolated in a yeast two-hybrid screen using the central region of p65 as bait. We confirmed the physical interaction in vitro using recombinant proteins as well as in vivo by immunoprecipitation/Western blot assay. RAI gene encodes a protein with homology to the C-terminal region of 53BP2 containing four consecutive ankyrin repeats and an Src homology 3 domain. RAI mRNA was preferentially expressed in human heart, placenta, and prostate. Despite its similarity to 53BP2, RAI did not interact with p53 in a yeast two-hybrid assay. RAI inhibited the action of NF-kappaB p65 but not that of p53 in transient luciferase gene expression assays. Similarly, RAI inhibited the endogenous NF-kappaB activity induced by tumor necrosis factor-alpha. RAI specifically inhibited the DNA binding activity of p65 when co-transfected in 293 cells. RAI protein appeared to be located in the nucleus and colocalized with NF-kappaB p65 that was activated by TNF-alpha. These observations indicate that RAI is another inhibitor of NF-kappaB in addition to IkappaB proteins and may confer an alternative mechanism of regulation.
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PMID:Identification of a novel inhibitor of nuclear factor-kappaB, RelA-associated inhibitor. 1033 63

Protein A (PA) of Staphylococcus aureus is known as an immunomodulator. In a search of the molecular mechanism(s) of PA-induced immunocyte potentiation, we found dose-dependent binding of PA (0.01 to 100 microg/ml PA) to the mice splenic lymphocytes. Interestingly, treatment of 1 microg PA/20 g mice increased the splenic lymphocyte number approximately 5-fold over control but at a 10-microg dose the cell number was decreased compared with a 1-microg dose. Flow cytometric analysis of cell-cycle phase distribution of nuclear DNA in splenic lymphocytes showed that at a 1-microg dose, PA shifted the cell-cycle phases from G0/G1 to S and G2/M supporting the pro-proliferative role of PA. In contrast, the same inducer increased the sub-G1 cell population at a 10-microg dose indicating the breakdown of cellular DNA. These findings were supported by DNA ladder formation and nuclear breakdown at this higher dose. Further studies revealed that at a 1-microg dose, the level of the pro-proliferative/anti-apoptotic protein bcl-2 was increased in splenic lymphocytes whereas at a 10-microg dose it showed a decreasing trend. In contrast, concentrations of proapoptotic proteins, p53 and bax, were increased at a 10-microg dose. A search of the mechanism(s) of such differential action of PA at these two doses revealed that the lower dose of PA upregulated the production of interferon-gamma (IFN-gamma) and tumor necrosis factor-alpha (TNF-alpha) to the extent which has already been reported by our laboratory to be beneficial to the host. However, at a larger dose, much higher release of TNF-alpha and interleukin-2 (IL-2) may account for the apoptosis of splenic cells. All these findings indicated that the cross-talk between all these pro- and anti-apoptotic factors may contribute to maintain a balance between growth and death of cells and may be one of the important factors deciding whether a cell would follow a proliferative pathway or an apoptotic pathway.
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PMID:Induction of cell proliferation and apoptosis: dependence on the dose of the inducer. 1038 51

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) and its receptors are members of the tumor necrosis factor superfamily. TRAIL selectively kills cancer cells but not normal cells. We report here the cloning of the mouse homologue of the TRAIL receptor KILLER/DR5 (MK). The cDNA of MK is 1146 bp in length and encodes a protein of 381 amino acids. MK contains an extracellular cysteine-rich domain, a transmembrane domain, and a cytoplasmic death-domain characteristic of Fas, tumor necrosis factor, and human TRAIL receptors. MK is highly homologous and binds TRAIL with similar affinity as human DR4 and KILLER/DR5. MK induces apoptosis in mouse and human cells and inhibits colony growth of NIH3T3 cells. Expression of MK is p53-dependent and up-regulated by tumor suppressor p53 and by DNA damaging agents in mouse cells undergoing apoptosis. This is the first report describing a mouse TRAIL receptor gene and also demonstrating that the p53-dependent regulation of KILLER/DR5-mediated apoptosis is conserved between human and mouse.
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PMID:Molecular cloning and functional analysis of the mouse homologue of the KILLER/DR5 tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) death receptor. 1038 28

Recent evidence suggests that the p53 molecule appears in two different forms: the mutant p53 that stimulates tumor progression, and wild type p53 that inhibits tumor progression. In addition, it has been established that tumor necrosis factor-alpha (TNF-alpha) can activate the expression of wild type p53 in concert with the nuclear transcription factor, NF-kappa B. Both TNF-alpha and NF-kappa B are also involved in the stimulation of the pathway that leads to the expression of major histocompatibility complex (MHC) class I molecules and, hence, antigen presentation to the T cells. In this paper we shall advance the hypothesis that: (i) TNF-alpha indirectly controls immune surveillance; and (ii) TNF-alpha controls DNA repair and tumor suppression through the regulation of wild type p53. Thus, it is hypothesized that elevated TNF-alpha is primarily responsible for promoting tumor progression.
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PMID:The p53 paradox in the pathogenesis of tumor progression. 1041 57

Oligodendrocytes (OLs) and their myelin membranes are the primary targets in the autoimmune disease multiple sclerosis (MS). The inflammatory cytokine tumor necrosis factor-alpha (TNF-alpha) has been implicated as a mediator of OL cell injury. TNF-alpha is detectable within MS lesions and induces apoptosis of mature human OLs in vitro. One possible mechanism by which TNF-alpha mediates cell death is through the activation of c-jun N-terminal kinase (JNK). We have previously shown that treatment of human OLs with TNF-alpha leads to activation of JNK. Here we provide evidence that p53, a regulator of the cell cycle and apoptosis, is a mediator of TNF-alpha-induced apoptosis of OLs. Although p53 was undetectable by western blot analysis in adult human OLs, its levels increased within 24 h after TNF-alpha treatment (100 ng/ml). The induced p53 was immunolocalized to the nucleus prior to the appearance of significant numbers of apoptotic cells. Overexpression of p53 by adenovirus-mediated gene transfer into human OLs in vitro resulted in marked apoptosis as revealed by in situ cleavage of DNA (TUNEL positive), decreased mitochondrial function, and release of lactate dehydrogenase into the culture medium. These in vitro studies demonstrate that increased p53 levels are associated with apoptosis of human OLs. The findings further implicate p53 as a target for the JNK pathway activated during TNF-alpha-mediated cell death of human adult OLs.
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PMID:p53 induction by tumor necrosis factor-alpha and involvement of p53 in cell death of human oligodendrocytes. 1042 56


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