UNIPROT:Q06643 - FACTA Search

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Query: UNIPROT:Q06643 (non-Hodgkin's lymphoma)
11,307 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

P53 is a tumour suppressor gene, located in the short arm of chromosome 17, which encodes for a nuclear protein involved in the control of cellular growth, regulating the entry of the cell into the S-phase. P53 mutations have been identified in a progressively increasing number of human malignancies. Nuclear p53 protein is usually present in non-tumour cells in minute concentrations, due to its short half-life. In contrast, tumours with p53 mRNA mutations show a higher nuclear protein concentration, detectable by immunohistological techniques, due to stabilization by complexing with other proteins such as heat-shock protein or wild-type p53 protein. Levels of nuclear p53 protein detected by immunohistochemistry with the monoclonal antibody PAb 1801 were measured with the aid of an image analysis system in 83 non-Hodgkin's lymphomas (NHLs) and 13 cases of Hodgkin's disease, as well as in 14 cases of normal thymus, reactive tonsils, and lymphadenitis. High levels of p53 protein (greater than 5 per cent of the cells) were present only in high-grade lymphomas (in the proportion 13/55), with a peak incidence in Burkitt's lymphoma (5/8 cases). Lower levels (less than 5 per cent) of p53 protein were detected in low-grade B- and T-cell lymphomas, as well as in most of the cases of Hodgkin's disease, where p53 protein was selectively present in Hodgkin and Reed-Sternberg cells. In 5/14 reactive tonsils or lymph nodes, occasional p53-positive cells were identified. These results suggest a relationship between levels of p53 protein and the aggressiveness of NHL.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:P53 protein expression in lymphomas and reactive lymphoid tissue. 138 24

A high frequency of lymphoma in human immunodeficiency virus-infected individuals has been reported since the outbreak of the acquired immunodeficiency syndrome (AIDS) epidemic in 1982. In the vast majority of cases, these lymphomas are highly aggressive B-cell, non-Hodgkin's lymphoma of intermediate or high grade of malignancy. AIDS-associated non-Hodgkin's lymphoma are histologically classified as small noncleaved cell lymphoma, large cell immunoblastic plasmacytoid lymphoma, or large noncleaved cell lymphoma. Host factors predisposing to lymphoma development in AIDS patients include decreased immunosurveillance as well as human immunodeficiency virus-induced chronic perturbation of the immune system leading to cytokine overproduction and increased B-cell stimulation. These alterations are associated with the development of multiple oligoclonal B-cell expansions, which are characterized by persistent generalized lymphadenopathy. The presence of Epstein-Barr virus within a persistent generalized lymphadenopathy clone further increases the risk of its neoplastic transformation. The appearance of non-Hodgkin's lymphoma is characterized by the presence of a monoclonal B-cell population displaying several genetic lesions, including monoclonal Epstein-Barr virus infection, c-myc rearrangements, Ras mutations, and p53 inactivation. The number and type of lesions varies among the different types of AIDS-non-Hodgkin's lymphoma, defining multiple alternative molecular pathways in AIDS-associated lymphomagenesis.
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PMID:Biologic aspects of human immunodeficiency virus-related lymphoma. 145 5

The clinical course of lymphoma patients in whom rearrangements or deletions of the short arm of chromosome 17 (17p) were evident by cytogenetics was rapidly progressive with a short survival. The gene for the protein designated p53 resides in 17p. We studied four lymphoma cell lines derived from human tumours, and 25 tumour samples of patients with lymphomas, for any evidence of p53 genomic changes by Southern blot technique. The four cell lines and four of the 25 tumour samples showed numerical changes of chromosome 17 or structural abnormalities of 17p (translocations or deletions). Allelic loss of the p53 gene was found in two of the four cell lines, and one of these in addition showed a rearrangement of the 3' end of the gene. Of the four tumours known to have chromosome 17 abnormality, one specimen showed allelic loss of the p53 gene. None of the remaining tumour samples showed any significant change. These studies suggest that acquisition of changes in the short arm of chromosome 17, which may be interrelated with the p53 gene, may carry a poor prognosis in patients with non-Hodgkin's lymphoma.
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PMID:Chromosome 17- and p53 changes in lymphoma. 177 79

MDM2 and p53 immunohistochemical protein expression was analysed in lymphocytes and in reactive and neoplastic lymphoid tissue. Phytohaemagglutinin (PHA)-stimulated lymphocytes displayed MDM2 and p53 co-expression. In 8 of 8 tonsils, 24 of 24 Hodgkin's disease (HD), and 10 of 24 high-grade non-Hodgkin's lymphoma (HG-NHL) specimens, MDM2 paralleled p53 nuclear expression in non-tumour and tumour cells. The number of positive cells was greater and the staining intensity was stronger for p53 than for MDM2. In another nine of the 24 HG-NHL cases studied, dissociated expression was observed, with high p53 expression and very low or absent MDM2 expression. In five cases, both MDM2 and p53 were negative. The eight low-grade NHL (LG-NHL) cases were also MDM2- and p53-negative. MDM2 and p53 expression in PHA-activated lymphocytes and reactive lymphoid tissue is probably an expression of opposing biological signals regulating cell proliferation. Parallel MDM2 and p53 expression in all HD and in 10 out of 24 HG/NHL cases may indicate that this growth suppressive pathway is maintained in those cases. However, dissociated MDM2/p53 expression (nine cases) and the absence of expression of both proteins (five cases) may represent examples of deregulation of this growth control pathway. These findings are in agreement with previous in vitro studies in cell lines regarding the role of MDM2/p53 lymphoid tissue, suggesting a possible role for MDM2 deregulation in lymphomagenesis.
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PMID:MDM2 expression in lymphoid cells and reactive and neoplastic lymphoid tissue. Comparative study with p53 expression. 747 76

Diffuse large B cell lymphomas (DLBLs) represent a heterogeneous collection of aggressive non-Hodgkin's lymphomas that can arise either de novo or as a result of transformation from chronic lymphocytic leukemia, small lymphocytic lymphoma, follicular lymphomas, or lymphomas of mucosa-associated lymphoid tissue. A small percentage of DLBLs express the CD5 antigen. The majority of these cases have evolved from a pre-existing low grade non-Hodgkin's lymphoma (Richter's syndrome). However, we identified and characterized nine CD5-positive DLBLs in which the patients did not have a previous history or concomitant evidence of chronic lymphocytic leukemia, small lymphocytic lymphoma, follicular lymphoma, or mucosa-associated lymphoid tissue-associated non-Hodgkin's lymphoma, suggesting that they arose de novo. All nine cases expressed CD20 and monotypic immunoglobulin, all eight cases examined expressed CD19, CD22 and CD43, eight of the nine cases expressed HLA-DR, and two of eight cases expressed CD11c. None of the cases expressed CD3, CD10, CD11b, CD21, CD23 or CD30. CD5 expression by these cells was found to be identical to that of CD5-positive B cell chronic lymphocytic leukemia by quantitative polymerase chain reaction analysis of CD5 mRNA. These nine de novo CD5-positive DLBLs exhibited clonal immunoglobulin heavy and light chain gene rearrangements but lacked integration of the Epstein-Barr virus genome and structural alterations of the bcl-1, bcl-2, c-myc, H-ras, K-ras, and N-ras proto-oncogenes and the p53 tumor suppressor gene. However, bcl-6 proto-oncogene rearrangement, which is involved in chromosome band 3q27 aberrations, was found in four cases (44.4%). This is comparable with the frequency of bcl-6 gene rearrangement in CD5-negative DLBL. In contrast, bcl-6 gene rearrangement was absent in six cases of DLBL associated with Richter's syndrome. These findings suggest that de novo CD5-positive DLBLs are genotypically similar to CD5-negative DLBLs and may be pathogenetically distinct from the DLBLs associated with Richter's syndrome.
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PMID:De novo CD5-positive and Richter's syndrome-associated diffuse large B cell lymphomas are genotypically distinct. 754 11

The t(11;14)(q13;q32) translocation, which juxtaposes the BCL1 oncogene with the Ig heavy chain locus, has been associated with an uncommon subtype of non-Hodgkin's lymphoma (NHL) termed mantle cell lymphoma (MCL). To date, no molecular marker that serves as an indicator of tumor progression or clinical prognosis has been described for NHLs with this translocation. We examined a panel of NHLs with t(11;14) for overexpression of p53 and correlated the results with single-strand conformation polymorphism (SSCP) analysis, karyotypic features, and clinical course. NHLs with t(11;14) were identified from 30 patients. The diagnosis was MCL for 23 of 30, small lymphocytic lymphoma for 4 of 30, and diffuse large-cell lymphoma for 3 of 30 cases. The results of immunohistochemistry analysis using a monoclonal anti-p53 antibody on paraffin-embedded specimens were compared with the SSCP data, the tumor karyotypes, and clinical course of each patient. DNA sequencing of exons was performed on cases that showed conformational changes by SSCP analysis. NHLs from 5 of 23 patients with MCL were positive for p53 overexpression. Deletions of chromosome 17p were identified in 2 of 30 cases, both of which were MCLs showing p53 overexpression. Two of the five MCLs with p53 overexpression showed evidence for TP53 mutations. None of the 18 MCLs negative for p53 overexpression showed conformational changes by SSCP. For these 18 patients with MCLs that did not overexpress p53, the median survival was 63 months, compared with 12 months for the 5 patients with MCLs positive for p53 overexpression (P < .001). These results suggest that p53 overexpression in MCL with t(11;14)(q13;q32) may serve as a marker of poor prognosis.
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PMID:p53 overexpression as a marker of poor prognosis in mantle cell lymphomas with t(11;14)(q13;q32). 757 80

The familial occurrence of gliomas, in the absence of well-defined neurological tumor syndromes such as the neurofibromatoses, is uncommon. We present a family of ten children in which the four eldest suffered from gliomas. Three of these siblings had histologically verified glioblastoma multiforme, and one patient also had an intestinal non-Hodgkin's lymphoma, but there were no stigmata or family history of a neurological tumor syndrome. Cytogenetic studies of the proband revealed a normal karyotype. Molecular genetic analysis of the proband's glioblastoma revealed two mutations in the p53 tumor suppressor gene, but these were not present in the germline DNA, mutations were not detected in the MTS1 gene in the tumors or in the germline DNA. These findings suggest that a genetic factor may be responsible for the clustering of glial tumors in this family, but it is unlikely that the genetic alteration is mutation of the p53 gene. The data are discussed in light of the literature on familial brain tumors.
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PMID:Glioblastoma multiforme in four siblings: a cytogenetic and molecular genetic study. 759 55

Mutation and abnormal expression of p53 was studied in 38 lymphomas [five Hodgkin's disease and 33 non-Hodgkin's lymphoma (NHL)]. CM1 polyclonal antibody was used to detect overexpression of p53. Three missense mutations were characterised in three cases of NHL after screening exons 5-8 of p53 of all the tumours with single-strand conformation polymorphism (SSCP) analysis. Only two out of three tumours with a missense mutation showed abnormal expression of p53 as measured by CM1. Conversely, seven out of nine tumours with positive CM1 staining had no point mutation demonstrated. Overexpression of p53 in the cases of NHL occurred in three out of twenty four low-grade tumours and five out of nine high-grade tumours (Kiel classification). The results suggest that abnormalities of p53 are commoner in high-grade than low-grade NHL, and that positive immunocytochemistry cannot be used to determine which tumours have mutations of p53.
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PMID:p53 mutation and expression in lymphoma. 759 45

The p53 tumor suppressor gene is frequently mutated within its evolutionarily conserved regions in a number of human cancers. Previous reports demonstrated mutations of this gene in both Burkitt's lymphoma and B cell chronic lymphocytic leukemia. However, dissimilar results were obtained in non-Hodgkin's lymphoma (NHL). In one study, no mutation was detected in 43 NHL tissues. A second study reported p53 mutations in eight (all with advanced stage disease) out of 48 tissues obtained from Japanese NHL patients. Using both immunoblotting and radio-immunoprecipitation, we detected mutant p53 proteins in nine out of 10 B cell lines established from NHL tissues. The mutations were confirmed by reverse transcription polymerase chain reaction-mediated single-strand conformational polymorphism (RT-PCR-SSCP) analysis in eight cell lines. The high frequency of p53 mutation in NHL B cell lines and the relatively low frequency of p53 mutations in fresh lymphoma tissue suggests that p53 gene alteration may play a role in lymphomagenesis and/or disease progression in a subset of B cell lymphomas and that the p53 mutation conveys a proliferative advantage on lymphoma cells that permits their in vitro growth.
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PMID:Detection of p53 mutations in B cell non-Hodgkin's lymphoma cell lines. 772

We looked for MDM2 gene amplification and over-expression by Southern and Northern blot analysis in 135 and 66 cases of haematological malignancies, including ALL, AML, CML in chronic phase, CLL, MDS, PLL, non-Hodgkin's lymphoma (NHL) and myeloma. No amplification of the gene was found. An over-expression of MDM2 RNA was seen in 9/66 (14%) patients tested, including 3/9 ALL, 3/24 AML, 2/4 myelomas, 1/1 PLL, but 0/2 CML, 0/2 NHL and 0/21 MDS. None of the patients over-expressing MDM2 had modifications of P53 gene transcript or p53 mutations. Most of the patients over-expressing MDM2 gene had poor prognostic features (including 'unfavourable' cytogenetic abnormalities), poor response to chemotherapy and short survival. Our findings suggest that over-expression of MDM2 is seen in a relatively small number of haematological malignancies, and is associated with poor prognosis.
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PMID:Over-expression of the MDM2 gene is found in some cases of haematological malignancies. 780 95

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