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)

Recent developments in the field of oncogenes and growth stimulatory factors have provided limited but essential models in neuro-oncology. The observation in gliomas of platelet growth factor (PDGF)-like immunoreactivity fits with the autocrine secretion model, rising the possibility for the growth factor independence of the cancer cells. The discovery of the tumor suppressor genes, for which loss of function mutations are oncogenic as in the RB gene of the retinoblastoma and p53 gene, has introduced a new concept of oncogenesis which could be useful even in the cure of the neoplasms. Several oncogenes are amplified and/or expressed in brain tumors, some associated with polymorphism leading to abnormal protein products. Therefore, corresponding functions, such as production of deficient epidermal growth factor receptor (EGFR) encoded by erb-B, are impaired. Abnormal chromosomal patterns have been recognized in brain tumors and found mainly in chromosomes 7 and 22 on which oncogenes erb-B and sis are located, respectively. Location of proto-oncogenes, which are normally expressed in the brain, indicate that they share common distribution patterns mainly involving the cerebellum, hippocampus and olfactory bulbs. These proto-oncogenes may be regulated by physiological and pathological events. The concept of oncogene involvement in brain tumors must be extended to include the other factors such as G-proteins, growth factor receptors, membrane-associated and cytoplasmic protein kinases, which are all responsible for the control of the cell growth and their response to external signals including chemotherapeutic drigs.
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PMID:Oncogenes: cause or consequence in the development of glial tumors. 133 37

The olfactory sensory neurons undergo continuous turnover under normal physiological conditions. Injured olfactory sensory neurons are also replaceable. In this study, we investigated cellular differentiation and growth of sensory neurons in the rat's olfactory epithelium after nerve transection by using immunohistochemical staining with polyclonal or monoclonal anti-olfactory marker protein (OMP), anti-c-jun protein and anti-p53 protein antibodies. OMP is found exclusively in olfactory sensory neurons, while c-jun functions as a transcription factor. p53 protein functions as a negative regulator of cellular proliferation related to the apoptotic pathway induced by DNA damage. The olfactory epithelium sections incubated with anti-OMP antibody showed staining of mature neurons and axons in the epithelium. Nerve transection resulted in a significant reduction in neurons labelled with OMP. On the 9th day after operation, our study indicated some recovery with an increasing number of neurons expressing OMP. In control animals without nerve lesions, c-jun protein immunoreactive neurons were present in the olfactory epithelium adjacent to the basal region. Following days 1 and 3 after nerve transection, no expression of c-jun protein was seen in neurons of the epithelium. On day 9 after transection, neurons in some basal areas indicated expression of c-jun protein. The immunolocalization demonstrated that p53 protein was present in some neurons located on the upper part of the olfactory epithelium. In contrast, an abundance of neurons expressing p53 protein was evident in the olfactory epithelium 1 and 3 days after nerve transection, indicating more cell deaths.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immunohistochemical studies of sensory neurons in rat olfactory epithelium. 754 Dec 11

The olfactory marker protein (OMP) is a M(r) 19,000 polypeptide originally considered a selective marker for differentiated olfactory receptor neurons. In an attempt to induce neoplastic proliferation in the olfactory cells, we made mice transgenic for the simian virus 40 large T-antigen gene linked to the OMP gene promoter. Four independent lines of transgenic mice were established. Despite a high expression of the transgene in the olfactory receptor neurons, no evidence of tumor growth was observed. Instead, starting from an age of 4 months, animals of all four lines presented with highly metastatic tumors originating in the adrenal medullas or sympathetic ganglia. The histological, ultrastructural, and immunohistochemical features of the tumors were identical to those of human infant neuroblastoma. Five independent neuroblastoma cell lines were established from tumors of different transgenic animals. All cell lines constitutively express the endogenous OMP gene. The transgene product, simian virus 40 large T-antigen, associates with the product of the anti-oncogene p53 in these cell lines. This transgene system not only offers a biologically faithful model for investigations on the pathogenesis of neuroblastoma, the most common solid neoplasia of infancy, it also raises intriguing questions about the role of the OMP gene for the differentiation of the sympathetic neurons.
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PMID:Metastasizing neuroblastomas in mice transgenic for simian virus 40 large T (SV40T) under the olfactory marker protein gene promoter. 792 40

Sixty-nine round cell lesions of the sinonasal region (22 olfactory neuroblastomas [ONBs], 17 malignant lymphomas, nine Ewing's sarcomas [ES], nine rhabdomyosarcomas, three sinonasal undifferentiated carcinomas, five malignant melanomas, and four pituitary adenomas) were studied in an attempt to define the differential diagnostic capabilities of antibody to MIC2 and bcl-2 in paraffin-embedded tissue in the distinction of these lesions. In addition, antibody to p53 was applied in each case to define the incidence of p53 positivity among these various tumor types. Each of the ES cases was MIC2 positive; each of the other cases was MIC2 negative. Positivity for bcl-2 was confined to two cases, one of them a malignant lymphoma (85% of cells positive) and one an ONB (5% of cells positive). Small numbers of scattered p53-positive cells appeared in the majority of cases studied, without regard for the specific tumor type; only a single case, a malignant lymphoma, showed a majority (approximately 90%) of p53-positive cells. These results indicate that the MIC2 antibody is a useful method by which to distinguish ES from a variety of other round cell lesions that may be encountered in the sinonasal region. The practical applications of antibody to bcl-2 and p53 seem to be much more limited; by contrast, neither bcl-2 positive cells nor abundant p53 cells identified by immunohistochemical analysis seemed to be frequent findings in any of the tumor types studied. Although ONBs have been included with the peripheral primitive neuroectodermal tumors for classification purposes, these tumors diverge from the ES/primitive neuroectodermal tumor family in that they do not seem to share either the MIC2 positivity or the t(11;22) chromosomal translocation that typify the ES/primitive neuroectodermal tumor family of lesions. Although bcl-2 positivity has been associated with a light microscopic finding of an unfavorable histologic pattern in retroperitoneal neuroblastomas, it does not seem that bcl-2 positivity in ONB will select for a clinically distinctive subset of patients.
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PMID:Olfactory neuroblastoma and other round cell lesions of the sinonasal region. 878 4

Microencephalic rats obtained by gestational treatment with the DNA alkylating agent methylazoxymethanol, show a remarkable lack of sensitivity to excitotoxic neuropathology caused by systemic injections of the convulsant neurotoxin kainic acid. Taking advantage of this, we have studied in these rats, as well as in normal rats, the relationship between the induction of cellular signals supposedly related to cell death and the neuronal apoptosis consequent to kainic acid administration. While normal rats responded to the excitatory insult with a large and relatively long lasting increase of the activity of the enzyme ornithine decarboxylase and of the concentration of putrescine in some brain regions, these alterations were much smaller in microencephalic rats. Expression of c-fos in brain regions sensitive to kainic acid was quicker but lasted a noticeably shorter time in microencephalic rats as compared to normal animals. A profusion of apoptotic neurons, labeled by an in situ technique, were observed in the olfactory cortex, amygdala and hippocampus of normal rats injected with kainic acid, in particular 48 h and 72 h after drug administration. At corresponding time intervals and with similar topographic localization, neurons expressing p53 protein were observed. By contrast, microencephalic rats displayed only in a few cases and in a small number apoptotic neurons in restricted areas of the ventral hippocampus and entorhinal cortex. Noticeably, in these cases small populations of p53-expressing neurons were also present in the same areas. The present observations clearly show that oncogenes such as c-fos and p53, as well as ornithine decarboxylase which behaves as an immediate-early gene in the brain under certain circumstances, undergo noticeably lower and/or shorter induction in microencephalic rats exposed to excitotoxic stimuli. In these rats, therefore, the cellular signalling pathways studied here and related to excitotoxic sensitivity and commitment to cell death are downregulated as a probable consequence of altered brain wiring.
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PMID:Activation of the ornithine decarboxylase-polyamine system and induction of c-fos and p53 expression in relation to excitotoxic neuronal apoptosis in normal and microencephalic rats. 965 38

The tumor-suppressor protein p53 has been implicated in cell cycle arrest and apoptotic cell death in dividing cells (Yonish-Rouach et al. [1991] Nature 352:342-347. To elucidate possible functions of p53 in the regulation of cell division and cell death during development of the rat central nervous system, we compared the spatial and temporal expressions of p53 mRNA and protein with those of its transcriptional targets Bax, p21Waf1, and cyclin G1 and with the cyclin-dependent kinase inhibitors p27Kip1, p57Kip2, and p16Ink4a. From embryonic day 14 until the second postnatal week, p53 mRNA and protein were found predominantly in proliferating zones, including the cells of the emerging external granular layer of the cerebellum, and the ventricular and the subventricular zones of the forebrain. At all postnatal ages, there was a high expression of p53 mRNA and protein in cells of the rostral migratory stream, a well-defined pathway along which precursor cells of olfactory interneurons migrate from the ventricular and subventricular zones toward the olfactory bulb. In addition to its expression in proliferating cell populations, p53 was expressed in postmitotic cells of the cerebral cortex and hippocampus at embryonic and early postnatal stages. p53, p27Kip1, p16Ink4a, and bax alpha mRNA colocalized in the ventricular and subventricular zones at embryonic and early postnatal stages, but the distribution of p53 differed from that of its transcriptional targets cyclin G1 and p21Waf1 and from that of the cyclin-dependent kinase inhibitor p57Kip2, which were predominantly expressed in fully differentiated neurons. Double-labeling studies showed that p53 mRNA and protein were absent in cells undergoing developmental cell death, as identified by the presence of single- or double-stranded nuclear DNA breaks. Protein levels of p53 decreased during development in all brain areas studied. These results indicate a role for p53 in the control of cell division and early differentiation rather than in the control of cell death during rat brain development. The nonoverlapping temporal and spatial expression patterns of p53 and its transcriptional targets Bax, cyclin G1 and p21Waf1 suggest that each of these gene products fulfill independent roles in brain morphogenesis.
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PMID:Tumor-suppressor p53 is expressed in proliferating and newly formed neurons of the embryonic and postnatal rat brain: comparison with expression of the cell cycle regulators p21Waf1/Cip1, p27Kip1, p57Kip2, p16Ink4a, cyclin G1, and the proto-oncogene Bax. 965 83

Cyclin G1 is a recently cloned transcriptional target of p53, it is located in neurons and ventricular ependymal cells and is elevated in neurons after axotomy and cerebral ischemia. The biological function for cyclin G1 in differentiated neurons has thus far not been elucidated. Recently, cyclin G1 has been shown to interact with the B' subunits of serine/threonine protein phosphatase 2A (PP2A) in a rat fibroblast cell line [K. Okamoto, C., Kamibayashi, M. Serrano, C. Prives, M.C. Mumby, D. Beach, p53-dependent association between cyclin G and the B' subunit of protein phosphatase 2A, Mol. Cell. Biol. 16 (1996) 6593-6602]. To further explore whether a similar interaction between cyclin G1 and PP2A B' subunits exists in the central nervous system, the present study compared the regional and developmental expression pattern, subcellular distribution and complex formation between cyclin G1 and the PP2A B' regulatory subunits in the rat brain. In situ hybridization of cyclin G1 and the B'alpha and B'beta subunits of PP2A showed an overlapping distribution in neurons of the cerebral cortex, hippocampus and thalamus at embryonic and early postnatal ages, but their developmental regulation differed. Whereas mRNA and protein levels of PP2A B' subunits were high in the cortical plate, subiculum, hippocampal areas and thalamus at E20 and decreased with age, those of cyclin G1 increased with age and were maximal in the adult cortex and hippocampus. In rat 14-day-old embryonic cortical cultures, cyclin G1 and PP2A B'alpha protein co-localized in nuclear and perinuclear areas of neurons, and both proteins were highly expressed in nuclei of cortical and hippocampal pyramidal cells and the mitral cell layer of the neonatal olfactory bulb. Both cyclin G1 and the PP2A regulatory B'alpha subunits were specifically expressed in neurons and not in glial cells. Antibodies raised against the B'alpha subunits of PP2A immunoprecipitated cyclin G1 in adult cortical lysates, indicating the presence of a complex involving cyclin G1 and the B'alpha subunits of PP2A. This study shows that the regional and subcellular localization of PP2A B' regulatory subunits and cyclin G1 are very similar at early postnatal stages. We discuss the possible functions of a cyclin G1-PP2A B'alpha complex in neurons.
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PMID:Developmental expression and co-localization of cyclin G1 and the B' subunits of protein phosphatase 2a in neurons. 988 95

Sinonasal undifferentiated carcinoma, olfactory neuroblastoma and malignant melanoma of the sinonasal regions are included within the category of small round cell tumors of the sinonasal region. It is difficult to diagnose these tumors on the basis of light-microscopic features alone, but, in some instances, immunohistochemical staining evaluating cytokeratin and S-100 protein, for example, is of value. On the other hand, the sinonasal region is a significant site for Epstein-Barr-virus (EBV)-related tumors, including sinonasal undifferentiated carcinoma or malignant lymphoma. Twenty-three sinonasal small round cell tumors (SSRCT) comprising 5 sinonasal undifferentiated carcinomas, 9 olfactory neuroblastomas and 9 malignant melanomas were evaluated for the presence of EBV infection by in situ hybridization for EBV-encoded RNA, combined with immunostaining for EBV-related proteins (LMP-1 and EBNA2). Furthermore, 55 SSRCT comprising 37 sinonasal undifferentiated carcinomas, 9 olfactory neuroblastomas, and 9 malignant melanomas were examined for the presence of cytokeratins (AE1/ AE3 and CAM5.2), S-100 protein and p53 protein using immunohistochemical staining. According to in situ hybridization for detecting EBV-encoded RNA 1 (EBER1), all of the sinonasal undifferentiated carcinomas showed clear, intense hybridization signals localized over the nuclei of the tumor cells and, in 3 out of 9 (33.3%) malignant melanomas, hybridization signals were also recognized. However, none of the olfactory neuroblastomas revealed hybridization signals. Immunohistochemically, 4 out of 5 (80%) sinonasal undifferentiated carcinomas were positive for LMP-1, whereas only 2 out 9 (22.2%) malignant melanomas and no olfactory neuroblastomas were positive. With regard to EBNA2, sinonasal undifferentiated carcinomas, malignant melanomas and olfactory neuroblastomas were all negative. Out of 37 sinonasal undifferentiated carcinomas 35 (94.6%) showed a diffuse positive immunoreaction for AE1/AE3, whereas neither olfactory neuroblastoma nor malignant melanoma revealed a positive reaction. All 9 malignant melanomas and 6 out of 9 olfactory neuroblastomas (75%) were positive for S-100 protein, whereas only 6 cases of sinonasal undifferentiated carcinomas (19.4%) were positive. As for p53 protein, 16 of 37 sinonasal undifferentiated carcinomas (43.2%) were positive, whereas neither olfactory neuroblastoma nor malignant melanoma revealed any positive reaction. The above results suggest that EBV infection is closely associated with sinonasal undifferentiated carcinomas, and that some malignant melanomas may also have a relationship with its infection. For the differential diagnosis of SSRCT, it is important to evaluate EBV infection along with immunohistochemical staining for cytokeratins and S-100 protein. The overexpression of p53 protein was found to be related to the oncogenesis of sinonasal undifferentiated carcinoma; however, there was no association between its overexpression and malignant melanoma or olfactory neuroblastoma.
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PMID:Evaluation of Epstein-Barr virus infection in sinonasal small round cell tumors. 1064 44

In this study, expressions of cell-cycle-related genes: p53, retinoblastoma (Rb), p21, bcl-2(alpha), bcl-2(beta); protooncogene c-ski; glial cell marker protein gene S100beta; neurotransmitter gene, substance P and sexual-differentiation-related genes, androgen receptor (AR) and estrogen receptor beta (ER(beta)), are studied in the olfactory bulb of groups of both six female and six male rats at the ages of 3, 10, 20 and 40 days. Expressions of housekeeping genes such as beta-actin, cyclophilin and proliferating cell nuclear antigens (PCNA) are determined using reverse transcription polymerase chain reaction (RT-PCR) for the correction of unequal amount of cDNA added into the samples. Using labeled 32P-dCTP and Phosphorimager technology, relative abundance of radioactivities of the PCR products is obtained by dividing the radioactivity of each individual sample by the corresponding radioactivities of different housekeeping genes. Data evaluated by Two-way ANOVA indicate that only the bcl-2(alpha) gene expression is affected significantly by age, sex and their interactions no matter which of the three housekeeping genes is used for correction. When beta-actin was used for corrections, effects of age but not sex were found in the expressions of p53, Rb, p21, AR, ER(beta), substance P and S100beta genes, but not in bcl-2(beta), c-ski, cyclophilin and PCNA genes. While cyclophilin was used for corrections, only the p53, Rb, AR, ER(beta), substance P and S100beta but not the bcl-2(beta), p21, c-ski, PCNA and beta-actin genes are affected by age. They are all not influenced by sex of the animals. Only the AR, ER(beta) and S100beta genes are age-dependent when PCNA was used for the correction. The other gene expressions are not altered by sex, while the interactions of age and sex were found to be significantly affecting the bcl-2(beta) gene expression. Conclusively, developmental changes of the p53, Rb, AR, ER(beta), substance P and S100beta genes expressions are quite evidenced while only the bcl-2(alpha) gene seems to change significantly during the sexual differentiation of olfactory bulb in rats.
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PMID:Gene expressions during the development and sexual differentiation of the olfactory bulb in rats. 1067 68

p53 is a tumor suppressor protein that regulates many cellular processes including the cell cycle, DNA repair, and apoptosis. It also serves as a critical regulator of neuronal apoptosis in the central nervous system (CNS). To elucidate the role of p53 in the CNS, brain proteins of p53 knock-out mice (p53-/-) were analyzed by two-dimensional gel electrophoresis (2-DE) and compared with those from p53 wild type (p53+/+) mice. Six types of brain tissue (temporal cortex, cerebellum, hippocampus, striatum, olfactory bulb, and cervical spinal cord) and other control tissues (lung and blood) from 18-week-old non-stress-induced mice were analyzed. The morphology of brains from p53-/- mice appeared to be normal and identical to that of p53+/+ mice, although lungs showed diffuse tumors that may have been caused by p53 deficiency. Comparative 2-D gel analysis showed that, on average, 7 of 886 spots from brain tissue were p53-/- specific, whereas 12 of 1008 spots from lung tissue were p53-/- specific. N-terminal amino acid sequence was determined for p53-/- specific proteins. In all brain tissues from p53-/- mice, a newly identified mouse mitochondrial NADH-ubiquinone oxidoreductase 24 kDa subunit showed decreased expression, and apolipoprotein A1 acidic forms showed increased expression. In addition, brain-type creatine kinase B chain and tubulin beta-5 N-terminal fragment were increased in the p53-/- cerebellum, and a new protein in mouse, hydroxyacylglutathione hydrolase (glyoxalase II) was decreased in the temporal cortex of p53-/- mice. The alterations in protein expression identified in this study may imply a p53-related brain function. This is the first proteomic analysis on the p53-/- mouse brain, and further information based on this study will provide new insights into the p53 function in the CNS.
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PMID:Comparative analysis of brain proteins from p53-deficient mice by two-dimensional electrophoresis. 1087 Sep 73


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