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)

The two gene products of the CDKN2A gene, p16 and p19ARF, have recently been linked to each of two major tumour suppressor pathways in human carcinogenesis, the RB1 pathway and the p53 pathway. p16 inhibits the phosphorylation of the retinoblastoma gene product by cyclin D-dependent kinases, whereas p19ARF targets MDM2, a p53 inhibitory protein, for degradation. A deletion of CDKN2A would therefore disturb both pathways. To explore the p53 pathway genes as a functional unit in diffuse large B cell non-Hodgkin's lymphomas (DLCL), we wanted to see whether there exists mutually exclusiveness of aberrations of CDKN2A, MDM2 and p53, since this has not been analysed previously. We investigated 37 DLCL for aberrations of p15, p16, p19ARF, MDM2, and p53 at the epigenetic, genetic and/or protein levels. Homozygous deletion of CDKN2A was detected in seven (19%) of 37 tumours, and another three cases were hypermethylated at the 5' CpG island of p16. No point mutations were found in CDKN2B or CDKN2A. Immunohistochemical staining of formalin-fixed, paraffin-embedded tissue for p16 confirmed these results, as all tumours with alterations of CDKN2A were p16 immunonegative. We found p53 mutations in eight (22%) cases and MDM2 overexpression in 16 (43%) tumours. Twenty-three (62%) tumours had alterations of one or more p53 pathway components (p53, p19ARF and MDM2). Furthermore, 7/9 (78%) p16-immunonegative tumours showed co-aberration of p53 and/or MDM2. The lack of correlation between these aberrations suggests that DLCL acquire additional growth advantage by inactivating both of these critical regulatory pathways.
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PMID:Aberrations of the p53 pathway components p53, MDM2 and CDKN2A appear independent in diffuse large B cell lymphoma. 1008 36

Although polyamines are well recognized for their critical involvement in cell growth, the cell cycle specificity of this requirement has not yet been characterized with respect to the newly delineated regulatory pathways. We recently reported that polyamine analogues having close structural and functional similarities to the natural polyamines produce a distinct G1 and G2-M cell cycle arrest in MALME-3M human melanoma cells. To determine a molecular basis for this observation, we examined the effects of N1,N11-diethylnorspermine on cell cycle regulatory proteins associated with G1 arrest. The analogue is known to deplete polyamine pools by suppressing biosynthetic enzymes and potently inducing the polyamine catabolic enzyme spermidine/spermine N1-acetyltransferase. Treatment of MALME-3M cells with 10 microM N1,N11-diethylnorspermine caused an increase in hypophosphorylated Rb, which correlated temporally with the onset of G1 arrest at 16-24 h. Rb hypophosphorylation was preceded by an increase in wild-type p53 (approximately 100-fold at maximum) and a concomitant increase in the cyclin-dependent kinase inhibitor, p21WAF1/CIP1 (p21; approximately 5-fold at maximum). Another cyclin-dependent kinase inhibitor, p27KIP1, and cyclin D increased slightly, whereas proliferating cell nuclear antigen and p130 remained unchanged. Induction of p21 protein was accompanied by an increase in p21 mRNA, whereas induction of p53 protein was not, suggesting transcriptional activation of the former and posttranscriptional regulation of the latter. SK-MEL-28 human melanoma cells, which contain a mutated p53, failed to induce p53 or p21 and did not arrest in G1. Rather, these cells rapidly underwent programmed cell death within 48 h. Overall, these findings provide the first indication of the cell cycle regulatory pathways by which polyamine antagonists such as analogues might inhibit growth in cells containing wild-type p53 and further suggest a mechanistic basis for differential cellular responses to these agents.
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PMID:Polyamine analogue induction of the p53-p21WAF1/CIP1-Rb pathway and G1 arrest in human melanoma cells. 1009 60

Mantle-cell lymphoma (MCL) is a lymphoproliferative disorder derived from a subset of naive pregerminal center cells characterized by a nodular or diffuse proliferation of atypical lymphoid cells with a monoclonal B-cell phenotype and coexpression of CD5. Two cytologic variants have been identified, typical and blastic. Typical cases show a proliferation of small to intermediately sized lymphoid cells with irregular nuclei and scarce cytoplasm. Blastic variants include a spectrum of intermediate to large cells with round or irregular nuclei and finely dispersed chromatin. These cases have a higher proliferative activity and a more aggressive clinical evolution. MCL is genetically characterized by 11q13 translocations and bcl-1 rearrangement. This alteration leads to a constant overexpression of cyclin D1, which plays an important pathogenetic role, probably deregulating cell-cycle control by overcoming the suppressor effect of retinoblastoma protein (Rb) and p27Kip1. Detection of cyclin D1 may be used as a highly specific marker of MCL because it is expressed in virtually all of these tumors, but in only a few reported cases of aggressive variants of chronic lymphocytic leukemia/small lymphocytic lymphoma (CLL/SLL) and a small percentage of cases of multiple myeloma. Aggressive variants have additional genetic alterations, including inactivation of p53 and p16INK4a tumor-suppressor genes. Clinically, MCL presents in elderly males with advanced disease and frequent extranodal involvement, particularly with involvement of bone marrow, gastrointestinal tract, and spleen. The clinical evolution is relatively aggressive, with poor response to conventional therapeutic regimens and a median survival duration of 3 to 4 years. Further studies are needed to define better new therapeutic strategies for the management of these patients.
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PMID:Mantle-cell lymphoma. 1031 80

Cytogenetic analysis of small lymphocytes disorders is hindered by the low mitotic activity of the malignant cells. The use of fluorescence in situ hybridization (FISH) allows the detection of chromosomal amplifications, deletions, or translocations at a single-cell level in dividing and resting cells. The use of FISH in combination with other molecular techniques has defined the deletion in band 13q14 as the most common abnormality in chronic lymphocytic leukemia, followed by del (11)(q22-23), trisomy 12, del (17)(p13), and del (6)(q21). The del 13q14 is also found in 70% of mantle-cell lymphomas (MCLs) and in non-Hodgkin's lymphoma (NHL), acute lymphoblastic leukemia (ALL), and multiple myeloma (MM) patients. These findings point to the existence of yet unidentified tumor-suppressor gene(s) at the 13q14 locus, the loss/inactivation of which leads to B-cell neoplasia. Del (17(p13) (involving the p53 tumor-suppressor gene) and del (11)(q22-23) (involving the ataxia-telangiectasia gene [ATM]) seem to be independent prognostic factors for poor survival in chronic lymphocytic leukemia (CLL) patients. In MCL, the t(11;14) involving the bcl-1 gene is found, but data from a bcl-1 transgenic animal model suggest that hyperexpression of bcl-1 is not sufficient for lymphomatogenesis. Similar data are observed in bcl-2 transgenic animals, a finding showing that the bcl-2 hyperexpression observed in t(14;18)-positive follicular lymphoma cells is not sufficient to confer a malignant phenotype. The contribution of other chromosomal abnormalities other than bcl-1 and bcl-2 rearrangements in the pathogenesis of MCL and follicular-cell lymphomas has to be determined.
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PMID:Genetics of small lymphocyte disorders. 1031 86

Odontogenic keratocysts are occasionally (4-5%) associated with the nevoid basal cell carcinoma syndrome, a pleiotropic, autosomal disorder presenting a spectrum of developmental abnormalities and a predisposition for the development of different neoplasms. The aim of this study was to establish whether keratocysts showing clinically aggressive behavior associated with nevoid basal cell carcinoma syndrome reflect differences in cellular proliferation rate and/or in the expression of oncoproteins and tumor suppressor genes. For this reason, formalin-fixed paraffin-embedded sections of odontogenic keratocysts associated with the nevoid basal cell carcinoma syndrome (16 cases) and sporadic odontogenic keratocysts (16 cases) were compared for expression of proliferating cell nuclear antigen (PCNA) and p53, bcl-2, and bcl-1 (cyclin D1) onco-proteins. Most of the epithelial lining of odontogenic keratocysts associated with the nevoid basal cell carcinoma syndrome showed nuclear immunopositivity for p53 protein and overexpression of cyclin D1 with various degrees of staining intensity. All sporadic odontogenic keratocysts were negative for p53 and cyclin D1. The expressions of bcl-2 oncoprotein were found to be substantially similar between the two groups of lesions, with a cytoplasmic immunopositivity localized only in the resting reserve basal layer of the epithelium. PCNA expression showed no statistically significant difference between the two groups of lesions. In conclusion, the finding of cyclin D1 and p53 overexpression in odontogenic keratocysts associated with the nevoid basal cell carcinoma syndrome could be considered a hallmark of a mutated cellular phenotype, thus leading to the hypothesis that their aggressive clinical behavior could be due to a dysregulation of the expression of cyclin D1 and p53 proteins, involved in a check-point control of cellular proliferation.
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PMID:Expression of cell cycle and apoptosis-related proteins in sporadic odontogenic keratocysts and odontogenic keratocysts associated with the nevoid basal cell carcinoma syndrome. 1040 62

Virus-induced immunosuppression is the major cause of the high morbidity/mortality rates associated with acute measles. It has been shown previously that mitogen-dependent proliferation of peripheral blood lymphocytes (PBL) was strongly impaired after contact with the measles virus (MV) glycoproteins F and H expressed on the surface of infected cells, cells transfected with the corresponding expression constructs or UV-inactivated MV (UV-MV). The state of unresponsiveness was not associated with the induction of apoptosis, and a significant proportion of PBL was found to be arrested in the G0/G1 phase of the cell cycle. It is now shown that cell cycle cessation, rather than complete arrest, is induced after MV glycoprotein contact. No obvious role was found for p53 in the induction of this unresponsiveness. With UV-MV as effector, downregulation of p27, an inhibitor of cyclin-dependent kinase (CDK)-cyclin complexes, was significantly delayed after mitogenic stimulation of human PBL. The activities of both CDK4/6-cyclin D and CDK2-cyclin E complexes for phosphorylation of exogenous substrates in vitro were strongly reduced. CDK4, CDK6, cyclins D3 and E and, to a minor extent, CDK2 failed to accumulate at the protein level after mitogenic stimulation in the presence of UV-MV. These data indicate that MV-induced proliferative unresponsiveness of PBL to mitogenic stimulation is associated with a drastic deregulation of the expression of cell cycle genes essential for the G1/S phase transition.
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PMID:Measles virus-induced immunosuppression in vitro is associated with deregulation of G1 cell cycle control proteins. 1042 27

p21 Is involved in the control of the mammalian cell cycle through the binding and inhibition of cyclin-dependent kinases. The cyclins are dependent on the phases of the cell cycle, and divided into two classes: mitotic cyclins (A, B1, B2) and G1 cyclins (C, D1, D2, D3, E). The product of the p21 gene is a potent downstream effector of the p53 tumor-suppressor gene function. The Hodgkin and Reed- Sternberg (H & RS) cells in Hodgkin's disease are reported to frequently express p53, p21, and nuclear proliferative activity (Ki-67). To clarify the relationship of p21, p53 and cyclins, we performed the immunohistochemistry of p53, p21, Ki-67, cyclin D1, cyclin E, cyclin A and cyclin B1, using 11 cases with Hodgkin's disease. In addition, we performed p53 gene sequencing of exon 5-8, and in situ hybridization of Epstein-Barr virus (EBV) EBER-1 region, whose products have reported to induce the expression of cyclin D. In this study, in all cases, Ki-67 was expressed in almost all H & RS cells, and p53 and p21 were expressed in H & RS cells. No p53 gene mutations were detected in any case, and p53 protein overexpression did not correlate with p53 gene mutations. The number of p21-positive H & RS cells was significantly related with that of the p53-positive cells. The cyclins E, A, B1 and D1 were also expressed in H & RS cells. Unexpectedly, the expression of the cyclins was not suppressed by p21 and p53 expression. In addition, the existence of EBV was not related to the expression of cyclins. It is considered that H & RS cells are, indeed, in cell cycle and commonly express the cell cyclins, and that the cell cycle of H & RS cells may not be specifically fixed in the G1, S, G2 or M phases.
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PMID:Expressions of cyclin E, A, and B1 in Hodgkin and Reed-Sternberg cells: not suppressed by cyclin-dependent kinase inhibitor p21 expression. 1046 93

Hepatocellular carcinoma (HCC) is linked etiologically to viruses (hepatitis B virus [HBV] and hepatitis C virus [HCV]), chemical carcinogens (i.e., aflatoxins), and other environmental and host factors causing chronic liver injury. Some hepatoblastomas may be linked to inherited gene mutations, but adult hereditary HCC appears to be rare. HCCs display gross genomic alterations, including DNA rearrangements associated with HBV DNA integration, loss of heterozygosity, and, less importantly, chromosomal amplifications and loss of imprinting. Many genes with somatic mutations have now been identified in these tumors. Most frequently involved genes are tumor suppressor genes such as p53, M6P/IGF2R, beta-catenin, p16INK4A, and retinoblastoma genes. Most identified mutations are somatic, but germline mutations of p16INK4A, APC, and BRCA2 have also been reported. Oncogenic activation of several cellular genes such as cyclin D and cyclin A have been described in HCC, but the possible implication of candidate viral oncogenes (i.e., X protein of HBV) is still debated. A comprehensive analysis of all the genetic changes described for HCC demonstrates that at least four different growth regulatory pathways are altered in these tumors. However, each pathway appears to be implicated in a limited fraction of these tumors, suggesting that HCCs are genetically heterogenous neoplasms. This genetic heterogeneity correlates with the heterogeneity of etiologic factors implicated in HCC.
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PMID:Genetic aspects of hepatocellular carcinogenesis. 1051 3

Primary mediastinal B-cell lymphoma (PMBL) shows chromosome 9p anomalies in 50% of cases. Based on reports that p16INK4A gene, located on this chromosomal arm, is frequently altered in aggressive lymphomas, we analysed for alterations of this gene in 27 cases of PMBL, which were part of a series of 32 PMBL cases that have been characterized for alterations in c-myc, p53, N-ras, bcl-1, bcl-2, bcl-6 and for Epstein-Barr virus (EBV) infection. Four cases showed p16INK4A gene anomalies, including three with promoter methylation and one homozygous deletion. Eight PMBLs showed c-myc rearrangements. Three additional cases showed sequence variations in the c-myc P2 promoter, two of which consisted of the same germline variation involving a novel polymorphic XhoI site. Four tumours contained p53 gene mutations and three had clonal EBV infection. One case had a bcl-6 rearrangement. In conclusion, our study shows that p16INK4, c-myc and p53 alterations occur in 15%, 25% and 13% of PMBLs, respectively. EBV monoclonality was found in 9% of cases, whereas no abnormality was detected in bcl-1, bcl-2 and N-ras. Thus, none of the common genetic aberrations seen in other types of non-Hodgkin's lymphomas appears to be stringently involved in the pathogenesis of this unique lymphoma type.
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PMID:Molecular features of primary mediastinal B-cell lymphoma: involvement of p16INK4A, p53 and c-myc. 1052 30

Some cell cycle models assume that cells are normally in a quiescent state until they are stimulated to enter the cell cycle and proceed through an S phase of fixed duration. Other models assume that cells normally cycle rapidly until they undergo growth retardation, proceed through an S phase of longer duration, and then undergo apoptosis or cell differentiation preferentially. These seemingly contradictory model types can be reconciled by restricting the latter type to the transition from log phase to plateau phase growth, and the former type to the recruitment of slowly proliferating cells into rapid cycle. Both proliferative states can be unified in a single cell cycle model that recognizes differences in the behavior of rapidly dividing and slowly dividing cells in the same population. Rb appears to play a major role in protecting slowly proliferating cells from apoptosis, permitting them to differentiate or persist as reserve cells that can be recruited into rapid cycle under appropriate circumstances. We examine the mechanistic basis for the recruitment phenomenon in some detail. The mitogenic signaling pathway is divided into a proximal segment, which consists of growth factor-induced membrane signaling, commonly through ras, raf, and cyclin D/cdk Rb kinase activation, and is subject to checks and balances that are designed to limit the propagation of the mitogenic signal. ras and raf compete with wild-type p53 both with respect to mitogenic signal propagation at the Rb node, and, separately, with respect to apoptosis/anti-apoptosis. The distal segment of the mitogenic signaling pathway, which consists of Rb phosphorylation, the release of E2F, the induction of c-myc, cyclins E and A, and DNA synthesis, is distinguished by a multiplicity of nested positive feedback loops; these would be expected to drive a mitogenic signal that entered the distal segment through at least one round of DNA synthesis. Using this model, we can identify two separate mechanistic strategies for neoplastic transformation. Chronic mitogenic stimulation of slowly proliferating cells would appear to be a common feature of Rb +/+ tumors. Rb -/- tumors dispense with the early segment of the mitogenic signaling pathway and its anti-apoptotic features, and maintain rapid cell cycling to compensate for high apoptotic rates.
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PMID:Cell cycle models for molecular biology and molecular oncology: exploring new dimensions. 1055 65


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