UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
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Next to water, tea is the most ancient and widely consumed beverage in the world. Epidemiological studies have suggested a cancer protective effect, but the results obtained so far are not conclusive. In the current study, mechanisms of the apoptogenic effect of black tea extract were delineated. Black tea administration to Ehrlich's ascites carcinoma (EAC)-bearing Swiss albino mice caused a significant decrease in the tumor cell count in a dose-dependent manner. Flowcytometric analysis showed an increase in the number of cells in the sub-G(0)/G(1) population signifying tumor cell apoptosis by black tea. These results were further confirmed by nuclear staining that demonstrated distinct morphological features of apoptosis. Our data also revealed an increase in the expression of pro-apoptotic protein p53 in EAC. It is known that upon p53 induction, multiple downstream factors contribute to the decision making between growth arrest and apoptosis. Among those, pro-apoptotic gene Bax is up regulated during p53-mediated apoptosis. On the other hand, p53-mediated growth arrest involves p21 as a major effecter. In our system, increase in p53 expression was followed by moderate expression of p21/Waf-1 and high expression of Bax at protein levels. Interestingly, anti-apoptotic protein Bcl-2 was down regulated resulting in decrease in Bcl-2/Bax ratio. All these observations together signify that black tea-induced apoptogenic signals overrode the growth-arresting message of p21, thereby leading the tumor cells towards death.
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PMID:Apoptogenic effects of black tea on Ehrlich's ascites carcinoma cell. 1253 51

Poly(ADP-ribose) polymerase (PARP), which is activated by DNA strand breaks, is involved in DNA repair and replication but, during apoptosis, undergoes early caspase-mediated cleavage. Activation of programmed cell death in response to DNA damage may rely on functional p53 protein. Tumor cells are commonly deficient in this oncogene product resulting in resistance to many cytostatic drugs. Here we report that nicotinamide-induced inhibition of poly(ADP-ribosyl)ation and cytokine-induced nitric oxide production both result in a transient increase in p53 levels in pancreatic tumor RINm5F cells. These treatments also induce disruption of the mitochondrial membrane potential (delta psi(m)), as revealed using the mitochondrial probe JC-1, followed by PARP cleavage and apoptosis all of which are inhibited by the anti-apoptotic protein Bcl-2. Moreover, PARP-inhibition by nicotinamide or 3-aminobenzamide induces apoptosis and/or cell cycle arrest at the G2 checkpoint in all of four tested tumor cell lines of both mesenchymal and epithelial origin including mouse NIH-3T3 cells and p53 deficient human HeLa and Jurkat cells. Bcl-2 counteracts cytokine-, but not nicotinamide-induced G2 arrest. These findings indicate that both chemical and caspase-mediated inhibition of PARP activity, possibly by interfering with DNA replication and repair, may promote a p53-independent G2 arrest and apoptosis.
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PMID:Nicotinamide- and caspase-mediated inhibition of poly(ADP-ribose) polymerase are associated with p53-independent cell cycle (G2) arrest and apoptosis. 1261 96

In previous studies with mice the oxygen radical generating neurotoxin tertiary butylhydroperoxide (t-BuOOH) was used to mimic the oxidative injury that has been implicated in neurodegenerative diseases. In addition, previous studies have shown that the poly (ADP-ribose) polymerase (PARP) inhibitor nicotinamide is able to prevent DNA fragmentation and apoptosis that is induced by t-BuOOH in mouse brain. However, the molecular mechanism(s) by which nicotinamide is able to protect human brain cells at the cellular level is not clear. Therefore in this study a cell culture model system with human cortical neuronal cells (HCN2 cells) has been employed where the molecular mechanism(s) of nicotinamide action, both in the presence and absence of t-BuOOH has been studied. Human cortical neurons (HCN2 cells) have been shown to differentiate to a neuron-like morphology. In this study, exposure of HCN2 cells to t-BuOOH resulted in altered morphology and disruption of neuronal differentiation leading to cell death. However, in neurons, which were treated with nicotinamide before being exposed to t-BuOOH, neuronal differentiation was preserved; morphological disruption was prevented and cell death was reduced significantly. Moreover, our studies indicate that nicotinamide is able to prevent the up-regulation of the pro-apoptotic proteins p53 and p21/WAF-1, and the down-regulation of the anti-apoptotic protein bcl-2 that is induced by t-BuOOH in HCN2 cells. Thus this study indicates that nicotinamide protects human brain cells from the toxic effects of free radical generating toxins by regulating the levels of various pro- and anti-apoptotic proteins.
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PMID:Nicotinamide protects HCN2 cells from the free radical generating toxin, tertiary butylhydroperoxide (t-BuOOH). 1270 97

It is well known that the generation of oxygen radicals can cause neuronal death by both apoptosis and necrosis, which may lead to the onset of neurodegenerative diseases. In previous in vivo studies, nicotinamide was found to prevent both DNA fragmentation and apoptosis that were induced by free radical generating toxins like tertiary butylhydroperoxide (t-BuOOH). Nicotinamide is a precursor for NAD and is an inhibitor of the enzyme poly(ADP-ribose) polymerase (PARP). However, the effect of nicotinamide on the regulation of pro- and anti-apoptotic proteins in neurons is not clear. In our study, the human cortical neuronal cell line HCN1-A has been used to determine the mechanism of action of nicotinamide at the cellular level. Cell viability studies showed that t-BuOOH treatment (both 100 microM and 1mM) caused significant cell death at 24 and 48h compared to control cells. Pretreatment with 1mM nicotinamide before t-BuOOH administration caused significant reduction in cell death. Moreover, the morphology of HCN1-A cells that were treated with both nicotinamide and t-BuOOH appeared to be closer to control cells when compared to HCN1-A cells treated with only t-BuOOH. Also, t-BuOOH treatment caused an elevation in the levels of the pro-apoptotic proteins p53 and p21/WAF-1 and a reduction in the levels of the anti-apoptotic protein bcl-2 compared to their levels in control HCN1-A cells, while pretreatment with nicotinamide reduced p53 and p21/WAF-1 levels even in the presence of t-BuOOH. However nicotinamide did not seem to alter bcl-2 levels. These results indicate that nicotinamide treatment can protect human neuronal cells from the toxic effects of t-BuOOH.
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PMID:The effect of tertiary butylhydroperoxide and nicotinamide on human cortical neurons. 1278 9

In 1990, the chicken anemia virus (CAV) genome was cloned by us and proven to be representative for CAV isolates worldwide. This genome contains unique promoter/enhancer replication elements and genes. Upon infection of its target cells, CAV replicates via a double-stranded (ds) DNA intermediate. From this ds CAV molecule, a single mRNA is transcribed, which encodes for three distinct proteins VP1, VP2, and VP3 or apoptin. Its capsid contains only the VP1 protein. However, for the production of the neutralizing epitope, co-synthesis of VP1 and VP2 are needed. CAV genomes with mutations in the 12 bp insert of the promoter/enhancer region were shown to produce immunogenic functional CAV particles. Mutations in these and other regulatory elements of CAV might also decrease its virus load resulting in a reduced pathogenic effect. CAV causes fatal cytopathogenic effects in e.g. chicken thymocytes via apoptosis. Under in vitro conditions, CAV replicates only in transformed chicken cell lines, which indicates that at least a part of the CAV life-cycle requires transformed-like cellular events. In these transformed cell lines, the synthesis of the apoptin protein alone mimics the CAV-induced apoptosis, whereas the VP2 protein also harbors some apoptotic activity. Extensive studies on apoptin resulted in the characterization of domains essential for its apoptotic activity and nuclear localization, which seems to be related with its ability to induce apoptosis. Therefore, both VP2 and apoptin are of interest in reducing the pathogenicity of CAV infections. A series of biomedical studies on apoptin have been carried out in human cell systems, which are informative about the mechanism of CAV-induced apoptosis in chicken (transformed) cells. Synthesis of apoptin alone induces apoptosis in various human transformed and/or tumorigenic cell lines, but not in normal human diploid cells. A striking difference in the cellular localization of apoptin was observed in human normal diploid cells versus tumor cells. In all tumor cells, apoptin is located mainly in the heterochromatic regions of the nucleus, whereas in normal cells it is present in peri-nuclear structures. Apoptin contains a bipartite nuclear localization signal, and one domain that resemble a nuclear export signal. Elucidation of parts of the apoptin-induced apoptotic pathway revealed unique characteristics: apoptin-induced apoptosis is independent of the tumor suppressor p53. The anti-apoptotic protein Bcl-2 does not inhibit but even accelerates apoptin-induced apoptosis in tumor cells, whereas over expression of Bcl-2 in normal cells has no effect on the apoptin activity. Upstream caspases are not involved, whereas downstream caspase 3 is, but seems not to be essential. A number of novel proteins were shown to interact with apoptin in transformed cells. Future studies of apoptin, VP2 and related cellular proteins in chicken cells will unravel the regulatory aspects of CAV-induced apoptosis.
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PMID:Chicken anemia virus induced apoptosis: underlying molecular mechanisms. 1474 Nov 20

BAG-1, a recently identified anti-apoptotic protein, is overexpressed in the majority of invasive breast carcinomas. Overexpression of BAG-1 is important for both multi-step oncogenesis and resistance of cancer cells to apoptosis induced by DNA-damaging alkylating agents. BAG-1 protein species are localized differentially; nuclear expression may be associated with a shorter disease-free and overall survival in early stage breast cancer, while cytoplasmic expression has been associated with longer survival in non-small cell lung cancer. Growing evidence suggests that Bcl-2 and p53 are also involved in the oncogenesis of breast cancer. Since BAG-1 interacts with Bcl-2 and is upregulated by mutant p53 in vitro, it would be interesting to determine if their expressions are correlated with each other and with other clinical prognostic factors in invasive breast cancer. To address this question we conducted a large scale retrospective study of BAG-1, Bcl-2 and p53 in 185 breast cancer patients. Our study again showed that BAG-1 is overexpressed in the majority of breast cancer patients. In addition, it demonstrated that the expression of BAG-1 correlates with that of Bcl-2, p53, differentiation, estrogen and progesterone receptors. Our clinical study supports the preclinical finding of the interaction between BAG-1 and Bcl-2, p53 and estrogen and progesterone receptors. Further experiments to explore the prognostic and therapeutic role of BAG-1 in breast cancer are warranted.
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PMID:BAG-1 expression correlates with Bcl-2, p53, differentiation, estrogen and progesterone receptors in invasive breast carcinoma. 1502 18

The main dose-limiting side effect of cancer treatment with platinum compounds is peripheral neurotoxicity. To investigate the intracellular mechanisms of platinum drugs neurotoxicity we have studied the effects of cisplatin and oxaliplatin on the human neuroblastoma cell line SH-SY5Y. Both platinum compounds are toxic causing cellular death by inducing apoptosis but oxaliplatin is less neurotoxic than cisplatin. The study of the proteins involved in the intracellular transduction pathways that may cause apoptotic death, revealed a very similar pattern of changes after exposure to cisplatin or oxaliplatin. In particular, as demonstrated by densitometric analysis, after exposure to both platinum compounds the total amount of the anti-apoptotic protein Bcl-2 was significantly reduced. Conversely, the amount of the pro-apoptotic protein p53 significantly increased. Caspases 3 and 7 were activated, but their activation was a late event, indicating a secondary role in the apoptotic process. Among the mitogen activated protein kinases, only the p38 protein was activated (phosphorylated) early enough to have a possible role in inducing apoptosis, possibly through p53 stabilization. The results of the present study and the data of the literature demonstrate that the ways in which cisplatin and oxaliplatin are neurotoxic are very similar and include not only DNA damage, but also the modulation of specific molecules involved in regulating the cellular equilibrium between apoptotic death and the cell cycle.
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PMID:Neurotoxicity of platinum compounds: comparison of the effects of cisplatin and oxaliplatin on the human neuroblastoma cell line SH-SY5Y. 1507 49

Prion diseases are transmissible neurodegenerative disorders that are invariably fatal in humans and animals. Although the nature of the infectious agent and pathogenic mechanisms of prion diseases are not clear, it has been reported that prion diseases may be associated with aberrant metabolism of cellular prion protein (PrP(C)). In various reports, it has been postulated that PrP(C) may be involved in one or more of the following: neurotransmitter metabolism, cell adhesion, signal transduction, copper metabolism, antioxidant activity or programmed cell death. Despite suggestive results supporting each of these mechanisms, the physiological function(s) of PrP(C) is not known. To investigate whether PrP(C) can prevent apoptotic cell death in prion diseases, we established the cell lines stably expressing PrP(C) from PrP knockout (PrP(-/-)) neuronal cells and examined the role of PrP(C) under apoptosis and/or serum-deprived condition. We found that PrP(-/-) cells were vulnerable to apoptotic cell death and that this vulnerability was rescued by the expression of PrP(C). The expression levels of apoptosis-related proteins including p53, Bax, caspase-3, poly(ADP-ribose) polymerase (PARP) and cytochrome c were significantly increased in PrP(-/-) cells. In addition, Ca(2+) levels of mitochondria were increased, whereas mitochondrial membrane potentials were decreased in PrP(-/-) cells. These results strongly suggest that PrP(C) may play a central role as an effective anti-apoptotic protein through caspase-dependent apoptotic pathways in mitochondria, supporting the concept that disruption of PrP(C) and consequent reduction of anti-apoptotic capacity of PrP(C) may be one of the pathogenic mechanisms of prion diseases.
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PMID:The cellular prion protein (PrPC) prevents apoptotic neuronal cell death and mitochondrial dysfunction induced by serum deprivation. 1509 84

The most important cellular protective mechanisms against oxidative stress are antioxidant enzymes. Their action is based on decomposal of reactive oxygen species (ROS) and their transformation to H2O2. Within the mitochondria manganese superoxide dismutase (MnSOD) affords the major defense against ROS. In this study we investigated tissue sections from 101 breast carcinomas for the immunohistochemical expression of MnSOD protein and these results were assessed in relation to various clinicopathological parameters, in order to clarify the prognostic value of this enzyme. The possible relationship to hormone receptor content, anti-apoptotic protein bcl-2, p53 and cell proliferation was also estimated. High expression levels were observed, as 79/101 (78,2%) cases expressed strong immunoreactivity. In this study MnSOD increased in a direct relationship with tumor grade and is therefore inversely correlated with differentiation (p=0.0004). Furthermore, there was a strong positive correlation between MnSOD expression and p53 protein immunoreactivity (p=0.0029). The prognostic impact of MnSOD expression in determining the risk of recurrence and overall survival with both univariate (long-rang test) and multivariate (Cox regression) methods of analysis was statistically not significant. These results indicate that neoplastic cells in breast carcinomas retain their capability to produce MnSOD and thus protected from the possible cellular damage provoked by reactive oxygen species. In addition, MnSOD content varies according to the degree of differentiation of breast carcinoma.
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PMID:Immunohistochemical expression of superoxide dismutase (MnSOD) anti-oxidant enzyme in invasive breast carcinoma. 1516 44

Neuronal and glial cell death and traumatic axonal injury contribute to the overall pathology of traumatic brain injury (TBI) in both humans and animals. In both head-injured humans and following experimental brain injury, dying neural cells exhibit either an apoptotic or a necrotic morphology. Apoptotic and necrotic neurons have been identified within contusions in the acute post-traumatic period, and in regions remote from the site of impact in the days and weeks after trauma, while degenerating oligodendrocytes and astrocytes have been observed within injured white matter tracts. We review and compare the regional and temporal patterns of apoptotic and necrotic cell death following TBI and the possible mechanisms underlying trauma-induced cell death. While excitatory amino acids, increases in intracellular calcium and free radicals can all cause cells to undergo apoptosis, in vitro studies have determined that neural cells can undergo apoptosis via many other pathways. It is generally accepted that a shift in the balance between pro- and anti-apoptotic protein factors towards the expression of proteins that promote death may be one mechanism underlying apoptotic cell death. The effect of TBI on cellular expression of survival promoting-proteins such as Bcl-2, Bcl-xL, and extracellular signal-regulated kinases, and death-inducing proteins such as Bax, c-Jun N-terminal kinase, tumor-suppressor gene, p53, and the calpain and caspase families of proteases are reviewed. In light of pharmacologic strategies that have been devised to reduce the extent of apoptotic cell death in animal models of TBI, our review also considers whether apoptosis may serve a protective role in the injured brain. Together, these observations suggest that cell death mechanisms may be representative of a continuum between apoptotic and necrotic pathways.
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PMID:Cell death mechanisms following traumatic brain injury. 1519 35

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