UNIPROT:P04637 - FACTA Search

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

Interleukin-18 (IL-18) induces apoptosis in human myelomonocytic KG-1 cells as determined by agarose gel electrophoresis, and flow cytometry after propidium iodide (PI) staining. Apoptosis was detected 20 hours from the start of culture at concentrations of 100 ng/ml of the cytokine. Although IL-18 induces the production of large amounts of interferon gamma (IFN-gamma) by KG-1 cells, conditioned media could not induce apoptosis of fresh cells. The protein expressions of p53 and Fas ligand by KG-1 cells, which constitutively express the Fas antigen (CD95), were found to increase after exposure to IL-18 for 20 hours. Both Fas ligand and its receptor were found to be functional by in vitro assays on Fas-expressing target cells and an agonist anti-Fas antibody, respectively. In conclusion, IL-18 enhances the expression of Fas ligand by Fas-expressing KG-1 cells and induces apoptosis in the cells through a mechanism probably involving the Fas pathway.
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PMID:Interleukin 18 enhances Fas ligand expression and induces apoptosis in Fas-expressing human myelomonocytic KG-1 cells. 941 56

Induction of apoptosis in keratinocytes by UV light is a critical event in photocarcinogenesis. Although p53 is of importance in this process, evidence exists that other pathways play a role as well. Therefore, we studied whether the apoptosis-related surface molecule CD95 (Fas/APO-1) is involved. The human keratinocyte cell line HaCaT expresses CD95 and undergoes apoptosis after treatment with UV light or with the ligand of CD95 (CD95L). Incubation with a neutralizing CD95 antibody completely prevented CD95L-induced apoptosis but not UV-induced apoptosis, initially suggesting that the CD95 pathway may not be involved. However, the protease CPP32, a downstream molecule of the CD95 pathway, was activated in UV-exposed HaCaT cells, and UV-induced apoptosis was blocked by the ICE protease inhibitor zVAD, implying that at least similar downstream events are involved in CD95- and UV-induced apoptosis. Activation of CD95 results in recruitment of the Fas-associated protein with death domain (FADD) that activates ICE proteases. Immunoprecipitation of UV-exposed HaCaT cells revealed that UV light also induces recruitment of FADD to CD95. Since neutralizing anti-CD95 antibodies failed to prevent UV-induced apoptosis, this suggested that UV light directly activates CD95 independently of the ligand CD95L. Confocal laser scanning microscopy showed that UV light induced clustering of CD95 in the same fashion as CD95L. Prevention of UV-induced CD95 clustering by irradiating cells at 10 degrees C was associated with a significantly reduced death rate. Together, these data indicate that UV light directly stimulates CD95 and thereby activates the CD95 pathway to induce apoptosis independently of the natural ligand CD95L. These findings further support the concept that UV light can affect targets at the plasma membrane, thereby even inducing apoptosis.
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PMID:Ultraviolet light induces apoptosis via direct activation of CD95 (Fas/APO-1) independently of its ligand CD95L. 942 65

The anti-tumour alkaloid taxol shows strong cytotoxic and antiproliferative activity in two human malignant glioma cell lines, T98G and LN-229. CD95 (Fas/APO-1) ligand is a novel cytotoxic cytokine of the tumour necrosis factor (TNF) family that exerts prominent antiglioma activity. At clinically relevant taxol concentrations of 5-100 nM, taxol and CD95 ligand showed significant synergistic cytotoxicity and growth inhibition. High concentrations of taxol induced G/M cell cycle arrest in both cell lines. The synergy of taxol and CD95 ligand was independent of cell cycle effects of taxol as synergy was achieved at much lower taxol concentrations than G2/M arrest and as cell cycle effects of taxol were unaffected by co-exposure to CD95 ligand. Similarly, high concentrations of taxol were required to induce p53 activity in the p53 wild-type cell line LN-229. This effect was not modulated by CD95 ligand, suggesting that synergy is also independent of p53 activation. However, taxol induced a mobility shift of the bcl-2 protein on immunoblot analysis, indicative of bcl-2 phosphorylation. Bcl-2 phosphorylation on serine was confirmed by immunoprecipitation and phosphoserine immunoblot analysis. Considering (1) that phosphorylation of bcl-2 interferes with its heterodimerization with bax and (2) the inhibition of CD95-mediated apoptosis by bcl-2, we propose that taxol sensitizes malignant glioma cells to CD95 ligand by increasing the functional bax/bcl-2 rheostat in favour of bax and thus cell death.
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PMID:Taxol-mediated augmentation of CD95 ligand-induced apoptosis of human malignant glioma cells: association with bcl-2 phosphorylation but neither activation of p53 nor G2/M cell cycle arrest. 947 35

Teniposide (VM26) enhanced the anti-glioma activity of the cytotoxic cytokine, CD95 ligand. Synergy was observed at concentrations of teniposide that were insufficient for cleavable DNA topoisomerase II complex formation. CD95 ligand did not modulate the formation or removal of such complexes after teniposide treatment. These processes were also unaffected by ectopic expression of bcl-2. Teniposide enhanced CD95 expression in a glioma cell line with wild-type p53 (LN-229) but not in two p53 mutant cell lines (T98G, LN-308). Forced expression of a transdominant negative p53 mutant prevented the teniposide induced augmentation of CD95 expression in LN-229 cells but did not prevent the synergy of CD95 ligand and teniposide. Teniposide did not alter CD95 ligand expression, and forced expression of CD95 did not modulate sensitivity to VM26. Thus, teniposide-induced DNA lesions and alterations in CD95 or CD95 ligand are not necessary for teniposide-induced sensitization of human malignant glioma cells to CD95-mediated apoptosis.
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PMID:Synergy of CD95 ligand and teniposide: no role of cleavable complex formation and enhanced CD95 expression. 954 55

Members of the tumour necrosis factor (TNF) receptor family exert pleiotropic effects and can trigger both apoptosis and proliferation [1]. In their cytoplasmic region, some of these receptors share a conserved sequence motif - the 'death domain' - which is required for transduction of the apoptotic signal by recruiting other death-domain-containing adaptor molecules like the Fas-associated protein FADD/MORT1 or the TNF receptor-associated protein TRADD [2-4]. FADD links the receptor signal to the activation of the caspase family of cysteine proteases [5,6]. Functional inactivation of individual receptor family members often fails to exhibit a distinctive phenotype, probably because of redundancy [7-9]. To circumvent this problem, we used a dominant-negative mutant of FADD (FADD-DN) which should block all TNF receptor family members that use FADD as an adaptor. We established transgenic mice expressing FADD-DN under the influence of the lck promoter and investigated the consequences of its expression in T cells. As expected, FADD-DN thymocytes were protected from death induced by CD95 (Fas/Apo1), whereas apoptosis induced by ultraviolet (UV) irradiation, anti-CD3 antibody treatment or dexamethasone was unaffected, as was spontaneous cell death. Surprisingly, however, we also observed profound inhibition of thymocyte proliferation in vivo and of activation-induced proliferation of thymocytes and mature T cells in vitro. This inhibition of proliferation was not due to increased cell death and appeared to be p53 dependent.
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PMID:p53-dependent impairment of T-cell proliferation in FADD dominant-negative transgenic mice. 955 Jul 4

Apoptosis is likely to be an important mechanism of cell loss in neurodegenerative diseases, but the signaling cascades activated before DNA fragmentation have not yet been determined. p53 or CD95 gene up-regulation precedes apoptosis in many cell types, and a potential role for these molecules in apoptosis of neurons and glial cells has already been demonstrated in Alzheimer's disease (AD). To determine whether apoptosis in other neurodegenerative diseases is mediated by similar mechanisms, p53 and CD95 expression were examined in postmortem central nervous system tissues from patients with diffuse Lewy body disease (DLBD), Pick's disease (PkD), progressive supranuclear palsy (PSP), multiple system atrophy (MSA), Parkinson's disease (PD), amyotrophic lateral sclerosis (ALS), and Down's syndrome plus Alzheimer's disease (DN+AD). Quantitative immunoblot analysis demonstrated higher temporal lobe levels of p53 and CD95 proteins in DLBD, PkD, and DN+AD, and higher temporal lobe levels of CD95 only in MSA and PSP relative to PD and aged controls (for all, p < 0.01). In histologic sections, increased p53 immunoreactivity was localized in neuronal and glial cell nuclei, neuronal perikarya, and dystrophic neuritic and glial cell processes in the frontal (Area 1 1) and temporal (Area 21) lobes in DLBD, PkD, and DN+AD, the motor cortex and spinal ventral horns in ALS, and the striatum and midbrain in DLBD, MSA, PD, and PSP. Increased CD95 expression and nuclear DNA fragmentation were present in the same cell types and structures that manifested increased nuclear p53 immunoreactivity. The results suggest that p53- or CD95-associated apoptosis may be a common mechanism of cell loss in several important neurodegenerative diseases. In addition, the presence of abundant p53-immunoreactive neurites and glial cell processes appears to be a novel feature of neurodegeneration shared by these distinct diseases.
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PMID:P53- and CD95-associated apoptosis in neurodegenerative diseases. 956 85

Loss of wild-type p53 activity is thought to be a major predictor of failure to respond to radiotherapy and chemotherapy in various human cancers. This assumption is largely based on some cell-death studies in p53-knockout mice and on correlations of p53 status assessed by immunochemistry or single-strand conformational polymorphism (SSCP) analysis, and responses to therapy in human cancers in vivo. In principle, p53 may enhance chemosensitivity by promoting apoptosis via transcription-independent mechanisms as well as transcriptional activation of proapoptotic genes such as bax and transcriptional repression of antiapoptotic genes such as bcl-2. Drug-induced suicide mediated by the CD95/CD95 ligand system may also involve a p53-controlled pathway. Yet, p53 may decrease chemosensitivity by promoting p21-mediated and p21-independent growth arrest, DNA repair, and differentiation, and by enhancing the transcription of antiapoptotic genes such as bcl-x. Cell-culture work indicates that the effects of altering the p53 status on chemosensitivity depend very much on the cellular context. Disruption of p53 function in otherwise normal, nonneoplastic cells may enhance rather than decrease chemosensitivity. However, targeted p53 gene disruption in some cell types obtained from p53-knockout mice results in enhanced rather than decreased sensitivity, e.g., to irradiation. Transformed cells that have retained wild-type p53 function tend to acquire chemoresistance when p53 function is disabled, with few exceptions. Thus, preexisting molecular alterations or consecutive accumulation of molecular alterations after loss of p53 rather than the loss of wild-type p53 activity per se may confer chemoresistence to tumor cells. Moreover, p53 accumulation resulting from the increased half-life of mutant p53 proteins can act as a gain-of-function mutation, presumably as a consequence of multiple protein-protein interactions. Finally, significant tumor cell-type- and drug-specific patterns of modulation of chemosensitivity by p53 are beginning to emerge. Transfer of wild-type p53 genes into tumor cells commonly induces growth arrest but may render these cells relatively more resistant to most chemotherapeutic drugs. Therefore, careful experimental in vitro and in vivo studies are required before chemotherapy-supported p53 gene therapy for human cancer is introduced into clinical practice.
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PMID:Predicting response to cancer chemotherapy: the role of p53. 958

Glioblastomas may develop rapidly without clinical and histopathological evidence of a less malignant precursor lesion (de novo or primary glioblastoma) or through progression from low-grade or anaplastic astrocytoma (secondary glioblastoma). Primary glioblastomas typically show overexpression of EGFR, but rarely p53 mutations, while secondary glioblastomas frequently carry a p53 mutation, but usually lack overexpression of EGFR, suggesting that these glioblastoma subtypes develop through distinct genetic pathways. In the present study, we assessed the expression of Fas/APO-1 (CD95), an apoptosis-mediating cell membrane protein, and its relation to necrosis phenotype in primary and secondary glioblastomas. Large areas of ischemic necroses were observed in all 18 primary glioblastomas, but were significantly less frequent in secondary glioblastomas (10 of 19, 53%; p = 0.0004). Fas expression was predominantly observed in glioma cells surrounding large areas of necrosis and was thus significantly more frequent in primary glioblastomas (18 of 18, 100%) than in secondary glioblastomas (4 of 19, 21%; p < 0.0001), suggesting that these clinically and genetically defined subtypes of glioblastoma differ in the extent and mechanism of necrogenesis. Necrosis and microvascular proliferation are histologic hallmarks of the glioblastoma. Following incubation of glioblastoma cell lines under hypoxic/anoxic conditions for 24-48 hours, Fas mRNA levels remained unchanged, whereas VEGF expression was markedly upregulated. This suggests that in contrast to VEGF Fas expression is not induced by ischemia/hypoxia. Analysis of Fas mRNA levels in a glioblastoma cell line containing a p53 mutation and an inducible wild-type p53 gene showed little difference under induced and noninduced conditions, suggesting that in glioblastomas, Fas expression is not directly linked to the p53 status.
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PMID:Necrogenesis and Fas/APO-1 (CD95) expression in primary (de novo) and secondary glioblastomas. 960 Feb 16

Sensitivity of CD95-mediated apoptosis has been reported to vary during cell cycle progression (FEBS Lett. (1997) 412, 91-93). Here, we report that three human glioma cell lines with different p53 status (i) undergo growth arrest and synchronous cell cycle re-entry after prolonged serum deprivation, (ii) do not exhibit cell cycle-related changes in CD95 expression at the cell surface, and (iii) do not exhibit cell cycle-related changes in susceptibility to DC95 ligand-induced apoptosis. In contrast, cell cycle-specific activity was demonstrated for various cancer chemotherapy drugs. Further, CD95 expression and susceptibility to CD95 ligand-induced apoptosis does not vary during cell cycle progression of Jurkat T cells, HeLa cervical carcinoma and HepG2 hepatocellular carcinoma cells. These results do not support a role for the cell cycle phase as an important predictor of vulnerability to CD95-mediated apoptosis.
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PMID:CD95-mediated apoptosis: no variation in cellular sensitivity during cell cycle progression. 972 Sep 15

The presence and distribution of apoptotic cell death in multiple system atrophy (MSA) and morphologically related diseases were investigated by means of a modified terminal deoxynucleotidyl transferase-mediated nick end labeling method, comparing their distribution with that of glial cytoplasmic inclusions, immunohistochemically demonstrated bcl-2 protein, bax protein, CD95, TNFalpha, and p53-protein expression, as well as activated microglia. Apoptosis occurred almost exclusively in oligodendrocytes in multiple system atrophy and its general distribution was comparable to the already known oligodendroglial pathology in this disorder. Additionally, in about a quarter of glial cytoplasmic inclusions, there was upregulation of bcl-2-protein and coexpression with ubiquitin, suggesting a final attempt of involved cells to counteract apoptotic cell death. Bax protein was also demonstrated in oligodendroglial cells. A significant neuronal apoptosis was not observed in MSA; these cells might be destroyed secondarily to oligodendroglial apoptosis by necrosis or other forms of programmed cell death. These results emphasize the central role of oligodendroglial pathology in multiple system atrophy, making this disease unique among neurodegenerative diseases.
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PMID:Cell death mechanisms in multiple system atrophy. 973 44

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