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)

We identified betulinic acid (BetA) as a new cytotoxic agent active against neuroectodermal tumor cells including neuroblastoma, medulloblastoma, glioblastoma and Ewing's sarcoma cells representing the most common solid tumors of childhood. BetA induced apoptosis independent of wild-type p53 protein and accumulation of death-inducing ligand/receptor systems such as CD95. BetA had a direct effect on mitochondria resulting in the release of soluble apoptogenic factors such as cytochrome c or AIF from mitochondria into the cytosol where they induced activation of caspases. Overexpression of the anti-apoptotic proteins Bcl-2 or Bcl-XL that blocked loss of the mitochondrial membrane potential and cytochrome c release from mitochondria conferred resistance to BetA at the level of mitochondrial dysfunction, protease activation and nuclear fragmentation. Neuroblastoma cells resistant to CD95- or doxorubicin-triggered apoptosis remained sensitive to treatment with BetA suggesting that BetA may bypass some forms of resistance. Moreover, BetA exhibited potent antitumor activity on primary tumor cell cultures from all neuroblastoma (4/4), all medulloblastoma (4/4) and most glioblastoma patients (20/24) ex vivo. These findings suggest that BetA may be a promising new agent in the treatment of neuroectodermal tumors in vivo.
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PMID:Betulinic acid: a new chemotherapeutic agent in the treatment of neuroectodermal tumors. 1047 70

Mammalian cells are capable of committing "active suicide" or apoptosis in response to specialized pathological mechanisms employing a phylogenetically developed intrinsic program of death, triggered by signal transduction through specific receptors. Changes in cellular structure such as: 1) condensation of the nuclear (chromatin) and cytoplasmic structures (especially the mitochondria); 2) blebbing of the cell membrane; 3) characteristic swelling of the endoplasmic reticulum; and 4) fragmentation of the cells in membrane bound apoptotic bodies, are the dramatic signs of total cell destruction. Apoptosis requires energy in the from of ATP, indicating that programmed cell death (PCD), as opposed to necrosis, is an energy dependent, active physiological and pathophysiological phenomenon. During this immunocytochemical study, we observed the presence of PCD in the prenatal thymus and various human neoplastically transformed tissues. During the intrauterine ontogenesis, in thymocytes or resting T lymphocytes, p53 tumor suppressor protein was identified to be a critical mediator of PCD in response to DNA damage. The cellular interaction of immature, cortical thymocytes (characterized by a double positive CD4+CD8+TCRlow immunophenotype-IP) with thymic RE cells induces positive selection of T lymphocytes that recognize, but are not activated, by self-MHC molecules (tolerance induction). Double positive CD4+CD8+CD3- thymocytes undergo FasL-mediated apoptosis, while CD4+CD8+CD3+ cells use the CD3 mediated pathway of PCD. Two step, apoptotic cell death is mainly restricted to the CD4+CD8+TCR dull thymocyte subpopulation. T-lymphocytes which do not undergo positive selection are killed by apoptosis in response to a number of intrinsic and extrinsic factors, such as chemical toxins, viral infections, X- and UV irradiation, mild hyperthermia, the actions of various hormones, extracellular survival factors, calcium ionophores (such as A23187), various chemotherapeutic drugs (adriamycin, actinomycin D, etc) and antibodies directed to the CD3-TCR (T cell receptor) complex. Immature thymocytes also undergo a second selective process, so-called negative selection, when thymic stromal cells eliminate autoreactive T lymphocytes. As a typical model of embryonal neoplasms, we observed 34 childhood PNET/MED tissues samples. A systematic observation for the presence of apoptosis related markers (especially FasR) and cells in PCD was carried out. A strong expression (intensity of staining: "A"--the highest possible; number of stained neoplastic cells: +++ to ++++, between 50% to 90%) of FasR was detected. We also observed 42 childhood glial tumors, divided as follows: 6 pilocytic ASTRs; 14 low grade ASTRs; 16 anaplastic ASTRs; and 6 GBMs. The GBMs represent an end-stage brain tumor IP dedifferentiation of glial origin. During the immunocytochemical screening of these 42 childhood ASTRs, we detected strong expression (intensity of staining: "A"--the highest possible; number of stained cells: ++ to ++++, between 20% to 90%) of FasR, employing 4 microns thick, formalin fixed, paraffin-wax embedded tissue slides. FasR expression was rated high, 70% to 90% on the tumor cells in pylocytic ASTRs, lowered to 50% to 60% on the neoplastic cells in low grade ASTRs, even lower between 30% to 40% in anaplastic ASTRs and significantly lower, between 20% to 35% on the neoplastically transformed cells of GBM tissues. The presence of apoptotic neoplastic cells was also regularly detected in other human adult neoplasms, such as thyroid, pancreatic, hepatocellular, gastric, colon, breast, ovarian, prostata, and renal cell carcinomas, as well as, in Hodgkin and non-Hodgkin lymphomas and some sarcomas. The expression of apoptosis related cell surface molecules on the surface of both neoplastically transformed cells and on tumor cell specific, cytotoxic T lymphocyte (CTL) surfaces (FasR-FasL system) raises a distinct possibility of active PCD induction in CTL by tumor cells. Juxtacrine interactions between CTL and neoplastically transformed cells, coupled with observations that tumor cells can modulate the intracellular, signaling domains of cell surface receptors to elicit responses quite often contrary to the expected, may even provide a way for CTL to enhance the proliferation and dedifferentiation of cancer cells. Adoptive cellular immunotherapies employing CTL raised against autologous neoplastically transformed cells in vitro should be employed in the control of minimal residual disease following surgical resection of the primary malignant growth.
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PMID:The role of apoptosis in normal ontogenesis and solid human neoplasms. 1120 98

Cancers of the central nervous system are the most common solid tumors of childhood. Although somatic alterations of the p53 tumor suppressor gene have been implicated in brain tumorigenesis, the role of germline p53 mutations in the development of childhood brain tumors has not been well defined. As a component of an ongoing extensive study of the epidemiology of childhood brain tumors, we prospectively examined the germline and tumor p53 gene status in 85 children without a family history of cancer who were diagnosed with a sporadic malignant central nervous system tumor. Using PCR/single-strand conformational polymorphism analysis and direct DNA sequencing, 85 children were screened for the presence of constitutional p53 sequence alterations in exons 2 and 4 through 11. No mutations were identified. Commonly reported sequence polymorphisms were observed at codon 72, as well as in 2 other previously described nucleotide residues. Forty-four brain tumor samples were available for analysis and of these 40 were paired with peripheral blood. Once again, no p53 mutations were found. Of the 5 germline samples with the 2 common polymorphisms, only one had a paired tumor sample for comparison and the tumor contained the same alteration as the germline. Of note, one tumor, a PNET of the cerebellum (medulloblastoma), showed loss of heterozygosity at codon 72. We can conclude that the frequency of germline and somatic p53 mutations in sporadic childhood brain tumors is very low, probably less than 1%, and there is no need to screen these patients routinely for their germline p53 status. However, the potential significance of LOH at codon 72 remains to be elucidated.
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PMID:Absence of germline and somatic p53 alterations in children with sporadic brain tumors. 1151 52

Ewings sarcoma and primitive neuroectodermal tumors (ES/PNET) are characterized by the fusion of the N-terminus of the EWS gene to the C-terminus of a member of the ETS family of transcription factors. While such fusion proteins are thought to play dominant oncogenic roles, it is unlikely that a single genetic alteration by itself will support cellular transformation. Given that EWS/FLI1 is only able to transform immortalized 3T3 fibroblasts and that 30% of ES/PNET tumors contain a homozygous deletion of the p16 locus, it is likely that other genetic events are required for EWS/FLI1 oncogenesis. Here we describe a complementary mechanism utilized in the establishment ES/PNET tumors. EWS/FLI1 has the capacity to induce apoptosis and growth arrest in normal MEFs. Such effects prevent the establishment of stable expression of the protein in these cells. When expressed in p16, p19(ARF), or p53 deficient MEFs, the apoptotic and growth arrest effects are attenuated, creating a environment permissive for stable expression of the protein. While loss of a single tumor suppressor is sufficient to establish expression of EWS/FLI1, cellular transformation requires further genetic perturbation.
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PMID:Loss of p16 pathways stabilizes EWS/FLI1 expression and complements EWS/FLI1 mediated transformation. 1170 8

A free-floating cell line has been established from a metastatic lesion of a Merkel cell carcinoma (MCC) patient. The cell line was characterized by immunocytochemical reactions with antibodies against the epithelial and neuroendocrine antigens: cytokeratin 20, neuron-specific enolase, chromogranin A, neurofilament protein, synaptophysin, and calcitonin. Karyotype analysis of the MCC cells showed deletion in chromosomes 3 and 7, loss of chromosome 10, and several translocations in other chromosomes. No mutation was detected in the TP53 gene, after analyzing the complete coding region. Growth factors such as basic fibroblast growth factor, transforming growth factor-beta, and nerve and epidermal growth factors had no effect on the proliferation of the cells. The differentiation-inducing agents sodium butyrate and dimethyl sulfoxide, especially the former, markedly inhibited the proliferation of the MCC cells. Aloe emodin, a natural constituent of aloe vera leaves, significantly inhibited the growth of MCC cells. Aloe emodin has been reported to be nontoxic for normal cells but to possess specific toxicity for neuroectodermal tumor cells. Differentiation-inducing agents, and aloe emodin, merit further investigation as potential agents for treating MCC.
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PMID:The effect of aloe emodin on the proliferation of a new merkel carcinoma cell line. 1180 75

Supratentorial primitive neuroectodermal tumours (sPNETs) are malignant central nervous system tumours of childhood which are histologically characterized by poorly differentiated neuroepithelial cells with the capacity for divergent differentiation into glial, neuronal, myogenic or melanotic lines. The histological differential diagnosis between sPNET and glioblastoma multiforme (GBM) may be difficult, particularly as GBMs can sometimes demonstrate a poorly differentiated PNET-like phenotype. To identify molecular genetic markers that may distinguish sPNET and GBM, we investigated 12 cerebral sPNETs and six GBMs from paediatric patients for genetic alterations of the TP53, PTEN, CDKN2A, EGFR, CDK4 and MDM2 genes, as well as for allelic loss on chromosome arms 10q and 17p. Mutations of the TP53 tumour suppressor gene were found in one of 12 sPNETs (8%) and two of six GBMs (33%). None of the sPNETs but two of six GBMs (33%, including one GBM with a TP53 mutation) showed allelic losses on chromosome arm 17p. PTEN mutations were detected in one of 12 sPNET (8%) and one of six GBMs (17%). None of the sPNETs and GBMs carried a homozygous deletion involving the CDKN2A tumour suppressor gene. No amplification of the EGFR, CDK4 or MDM2 proto-oncogenes was detected. Taken together, our results indicate that paediatric GBMs differ from sPNETs by a higher incidence of allelic losses on 17p and TP53 mutations. In addition, the patterns of genetic alterations in sPNETs and paediatric GBMs appear to be distinct from those in cerebellar medulloblastomas and adult GBMs, respectively.
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PMID:Molecular genetic analysis of the TP53, PTEN, CDKN2A, EGFR, CDK4 and MDM2 tumour-associated genes in supratentorial primitive neuroectodermal tumours and glioblastomas of childhood. 1217 45

Glioblastoma is the commonest neuroectodermal tumor and the most malignant in the range of cerebral astrocytic gliomas. The prognostic utility of various biological markers for glioblastomas has been broadly tested but the results obtained are regarded as controversial. In the present study, 302 glioblastoma specimens were studied to evaluate a possible association between clinical outcome and expression of some immunohistochemical variables. Furthermore, tumors examined were subdivided on the three cytological subsets--small-cell (SGB), pleomorphic-cell (PGB) and gemistocytic (GGB). Immunohistochemical variables differed between various subsets: the number of p53-positive tumors was found to be prevailed among the PGB, whereas the number of tumors with EGFR and mdm2 positivity was significantly greater in SGB. GGB contained significantly lowest mean proliferating cell nuclear antigen (PCNA) labeling index (LI), greater number of p21ras positive cases, and higher mean apoptotic index (AI). Survival time in patients with SGB, EGFR and mdm2-positivity and PCNA LI >40% was found to be significantly shorter, whereas presence of p21ras and AI >0.5% were associated with prolonged survival. Multivariate analysis revealed that survival time is associated with SGB, EGFR-positivity, and AI (p = 0.0023, p = 0.0035 and p = 0.0029 respectively). We conclude that although some immunohistochemical variables were found to be significant for glioblastoma outcome, they appear to be closely related to biology of single cytological subsets. Furthermore, these variables exhibited no prognostic value when they were analyzed within each cytological subset separately. Therefore, the glioblastoma subdivision on three cytological subsets proposed by us is carrying some element of rationality but, undoubtedly, requires further prospective studies.
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PMID:Immunohistochemical markers for prognosis of cerebral glioblastomas. 1218 57

Previously, we have identified aloe-emodin (AE) as a new type of anticancer agent, with activity that is based on apoptotic cell death promoted by a neuroectodermal tumor-specific drug uptake. We attempt to clarify the intracellular target of AE and the apoptosis-signaling pathway activated by AE in neuroblastoma cell lines. Two-photon excitation microscopy and spectroscopic titrations documented that AE is highly concentrated in susceptible cells and binds to DNA. One of the most important mediators of apoptotic response to genotoxic stimuli, such as anticancer agents, is the p53 tumor suppressor gene. To evaluate the role played by p53 in AE-induced apoptosis a p53 mutant cell line, which lacks transcriptional activity of p53 targeted genes, was tested. AE displayed a reduced growth inhibitory and pro-apoptotic activity in p53 mutant cells (SK-N-BE(2c)) with respect to the p53 wild-type line (SJ-N-KP). This effect was not caused by a reduced drug uptake in the mutant neuroblastoma cell line but was related to a different apoptotic cell phenotype. Whereas SJ-N-KP cells were susceptible to a p53 transcription-dependent pathway of apoptosis, SK-N-BE(2c) cells underwent apoptosis with up-regulation of p53 expression but not of p53-target genes. After AE treatment p53 translocates to the mitochondria inter-membrane space in both neuroblastoma cell lines. Due to its high accumulation in neuroectodermal tumor cells AE could also kill tumor cells harboring p53 mutant genes. This property would further contribute to AE specific anti-tumor activity and might be exploitable in the clinic.
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PMID:Involvement of p53 in specific anti-neuroectodermal tumor activity of aloe-emodin. 1291 60

It is well known that the cell cycle is controlled by several cyclin/cyclin-dependent kinase (Cdk) complexes whose expression and phosphorylation states vary with orderly periodicity. During the cell cycle, activity of the cyclin/Cdk complexes can be regulated directly or indirectly by a number of molecules, including protein kinases and phosphatases, p53, and Cdk inhibitors. Here, we show that the addition of glial cell line-derived neurotrophic factor (GDNF) induced G2/M cell cycle delay in human SK-N-MC neuroectodermal tumor cells that express RET tyrosine kinase, accompanying actin reorganization. Cell cycle delay at G2/M was characterized by accelerated and prolonged Cdc2 phosphorylation and stabilization of cyclin B1 and Wee1 kinase expression. Interestingly, we found that phosphorylation and/or expression of Cdc2, cyclinB1, and Wee1 was controlled by the Rac1/c-Jun NH2-terminal kinase (JNK) pathway. Immunohistochemical analysis suggested that the G2/M cell cycle delay may be necessary to prevent the mitotic progression of SK-N-MC cells with perturbed actin cytoskeletons.
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PMID:Activation of c-Jun amino-terminal kinase by GDNF induces G2/M cell cycle delay linked with actin reorganization. 1596 97

Medulloblastoma is the most common malignant brain tumor in childhood. The most prevalent chromosomal abnormalities are isochromosome 17q and loss of 17p, the location of the tumor suppressor gene p53. Mutations in the p53 gene in medulloblastoma are relatively infrequent but have recently been correlated to poor prognosis. Furthermore, the p53 gene encodes nine different isoforms, which may have a profound impact on p53 tumor suppressor activity. Nine medulloblastoma primary biopsy samples, six cell lines from medulloblastoma, and one from a supratentorial PNET, and a medulloblastoma xenograft, along with human brain and visceral tissues, were analyzed by Western blotting, using monoclonal p53 antibodies against two regions in the N-terminus or the central domain. Medulloblastoma primary tissue and xenografts present low molecular weight proteins recognized by both N-terminal p53 antibodies that are absent in all cell lines including the one used for xenografts. Normal visceral organs display short forms of p53, and low levels of canonical p53. Normal brain structures, including cerebellum, contained only canonical size p53 at high levels. In conclusion, our results indicate that the presence of p53 isoforms may play a functional role in medulloblastoma. The observed differences in their presence in cell lines and derived xenografts, suggest that p53 should be investigated in in vivo models rather than in cell lines.
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PMID:Differential forms of p53 in medulloblastoma primary tumors, cell lines and xenografts. 2118 30

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