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)

Genetic alteration, including genomic instability, is an ultimate step toward the malignant process. One approach to delineating replication errors in cancer cells is to determine the alterations of microsatellites, which are short, repeated nucleotide sequences existing throughout the genomes. We used a fluorescent system to assess microsatellite changes in seven loci (D2S123, D3S643, D5S107, LPL, D17S261, TP53, and D18S34) of 73 consecutive patients with various hematological neoplasias. De novo acute leukemia patients had a low frequency (<1%) of microsatellite alterations at each locus, and none of them demonstrated multiple microsatellite changes. In chronic myeloid leukemia patients, no microsatellite instability was detected in the chronic phase, whereas a relatively high frequency (25%) of multiple microsatellite changes was evident in the blastic phase, and half of these patients had multiple microsatellite changes. About 50% of the patients with myelodysplastic syndrome (MDS) and post-MDS acute myeloid leukemia (post-MDS AML) had microsatellite alterations. We next compared microsatellite alterations in two different hematological phases (MDS and post-MDS AML phases); 5 of 11 patients with post-MDS AML had de novo appearance of microsatellite instability during disease progression. This indicates that genomic instability at multiple microsatellite loci could occur either before or after leukemic transformation in MDS patients. We concluded that genomic instability in chronic myeloid leukemia might be linked to blastic transformation in combination with cytogenetic changes. In contrast, MDS patients had replication errors as a relatively early genetic event as well as a late genetic event. These results suggest that the involvement of genomic instability in the progression of disease is different among various types of leukemia.
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PMID:Replication errors in hematological neoplasias: genomic instability in progression of disease is different among different types of leukemia. 981 37

Microsatellite instability (MSI) and p53 mutations have been reported to occur in a significant proportion of patients with therapy-related acute myeloid leukemia (AML). MSH2 is one of the genes involved in DNA mismatch repair to maintain fidelity of genomic replication, and defects of MSH2 are directly involved in MSI in hereditary nonpolyposis colorectal tumors and other human tumors. We have examined the expression of MSH2 protein by Western blotting in 43 adult leukemia samples, including 42 AML and 1 acute lymphoblastic leukemia (ALL) using the antibody MSH2 (Ab-1) (Calbiochem, La Jolla, CA). Abnormal expression of MSH2 protein was found in 14 of 43 (32.6%) cases; a control antibody to actin was always positive. Of the 14 patients that had abnormal expression of MSH2, 2 had therapy-related acute leukemia and 9 were elderly patients (>60 years of age). Expression of MSH2 mRNA was further examined by reverse transcriptase-polymerase chain reaction (RT-PCR). Deletion of MSH2 mRNA was found in 1 of 14 cases with deficient MSH2 protein expression. This group of patients was also screened for loss of heterozygosity (LOH) at the MSH2 locus using a panel 4 microsatellite markers (D2S367, D2S288, D2S391, and D2S2294). LOH was found in 5 of 11 cases examined. There was no evidence of LOH in 14 patients with normal MSH2 expression who were examined using the same markers. Functional evidence for defective DNA mismatch repair in leukemic cells lacking MSH2 as manifest by MSI was found in 7 of 11 cases studied. Mutations of the p53 gene in these 43 samples were also investigated by direct sequencing of full-length p53 cDNA. Mutations of p53 were found in 6 of 43 cases, including 5 of the 14 (35.7%) cases that did not express MSH2 protein. In contrast, mutation of p53 was only found in 1 of 29 (3.4%) cases with normal MSH2 protein expression (chi2 = 5.720, P <.02). These results suggest that abnormalities of DNA mismatch repair due to defective MSH2 expression could play a key role in leukemogenesis, in particular in AML arising in elderly patients or secondary to previous chemotherapy.
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PMID:Microsatellite instability and p53 mutations are associated with abnormal expression of the MSH2 gene in adult acute leukemia. 1104 32

Cytogenetic/molecular abnormalities significantly influence the prognosis of patients with acute leukemia. Recently, two genes, p16INK4a and p15INK4b, encoding two cyclin-dependent kinase inhibitor proteins of the INK4 family of Mr 15,000 and 16,000, respectively, have been localized to 9p21. Remarkably, the p16INK4a locus has been found to encode a second protein, p14ARF, known as p19ARF in mice, with a distinct reading frame. Like p16INK4a, p14ARF is involved in cell cycle regulation, blocking cells at the G1 restriction point through the activity of MDM-2 and p53. We studied bone marrow samples of 42 newly diagnosed and untreated patients with acute lymphoblastic leukemia for the incidence of deletions of p16INK4a/p14ARF and p15INK4b using Southern blot analysis and determined the clinical outcome with regard to complete remission (CR) duration, event-free survival, and overall survival. We found deletions of p16INK4a/p14ARF in 17 of 42 patients (40%), with homozygous deletions in 11 of 42 patients (26%) and hemizygous deletions in 6 of 42 patients (14%). The gene for p15INK4b was codeleted in most, but not all, cases and was never deleted without deletion of p16INK4a/ p14ARF. No correlation was observed between molecular studies and karyotype abnormalities as determined by conventional cytogenetics. Furthermore, no difference was found in the CR rate, CR duration, event-free survival, and overall survival in patients with homozygous gene deletions compared to patients with no deletions or loss of only one allele.
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PMID:The prognostic significance of p16INK4a/p14ARF and p15INK4b deletions in adult acute lymphoblastic leukemia. 1043 92

As mice carrying mutations of the DNA mismatch repair genes MSH2 and MSH6 often develop lymphoid neoplasms, we addressed the prevalence of the replication error (RER(+)) phenotype, a manifestation of an underlying defect of DNA mismatch repair genes, in human lymphoid tumors. We compared microsatellite instability (MSI) at 10 loci in 37 lymphoid tumors, including 16 acute lymphoid leukemias (ALL) and 21 non-Hodgkin's lymphomas (NHL), and in 29 acute myeloid leukemias (AML). Significant differences in MSI prevalence between AMLs and ALLs emerged, and MSI occurrence was more frequent in the NHLs versus AMLs. Indeed, only 3 of 29 (10%) AMLs exhibited MSI, thus confirming its paucity in myeloid tumors, while 10 of 37 (27%) lymphoid tumors, 6 ALLs and 4 NHLs, disclosed an RER(+) phenotype. In 1 ALL patient, the same molecular alterations were observed in correspondence with a relapse, but were not detected during remission over a 14-month follow-up; in another ALL patient, findings correlated with impending clinical relapse. These results suggest that the study of MSI in lymphoid tumors might provide a useful molecular tool to monitor disease progression in a subset of ALLs. To correlate MSI with other known genetic abnormalities, we investigated the status of the proto-oncogene, bcl-2, in the lymphoma patients and found that 4 of 4 NHL patients with MSI carried bcl-2 rearrangements, thus linking genomic instability to enhanced cell survival in NHL; moreover, no p53 mutations were found in these patients. Finally, we addressed the putative cause of MSI in hematopoietic tumors by searching for both mutations and deletions affecting DNA repair genes. A limited genetic analysis did not show any tumor-specific mutation in MLH1 exons 9 and 16 and in MSH2 exons 5 and 13. However, loss of heterozygosity (LOH) of markers closely linked to mismatch repair genes MLH1, MSH2, and PMS2 was demonstrated in 4 of 6 ALLs and 1 of 3 AMLs with MSI. These observations indicate that chromosomal deletions might represent a mechanism of inactivation of DNA repair genes in acute leukemia.
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PMID:Mutator phenotype in human hematopoietic neoplasms and its association with deletions disabling DNA repair genes and bcl-2 rearrangements. 1049 15

Familial and metachronous aggregations of malignant lymphoma are well-documented, but the molecular basis of a predisposition for development of lymphoma is as yet unclear. Malignant lymphomas have been described as part of the spectrum of neoplasias in Li-Fraumeni syndrome (LFS), which is associated with constitutional mutations of p53. However, p53 germline mutations have also, albeit less frequently, been described in patients not fitting the clinical definition of LFS. To clarify whether a genetic predisposition for lymphoma is associated with constitutional p53 mutations, DNA from normal blood lymphocytes of 12 lymphoma patients with a family history of lymphoma and/or with metachronous lymphoma (median age 37 years) was examined for mutations of p53 exons 4-8. One patient had four first-degree relatives with Hodgkin's disease, acute leukemia, and carcinomas, but the family history did not fulfill criteria of LFS. Four patients with Hodgkin's disease were diagnosed with metachronous non-Hodgkin's lymphoma as a second malignant neoplasm. No constitutional p53 mutations were detected in any of these patients, implying that outside the clinical spectrum of LFS, constitutional p53 mutations are rare in patients with lymphomas.
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PMID:Familial and metachronous malignant lymphoma: absence of constitutional p53 mutations. 1053 80

We report on a patient with acute myeloid leukemia (AML M4) and a so far unrecorded translocation (17;19). The leukemia transformed from a myeloproliferative disorder (MPD) and showed a progressive fatal course. Following transformation, all leukemic cells showed an apparently balanced translocation (17;19)(p13;p13). The breakpoint regions harbor genes such as TP53 (17p13) and E2A, ENL, or LYL1 (19p13), which could be relevant in leukemogenesis. We suspect that the translocation (17;19)(p13;p13) may be a prognostic factor for transformation from chronic MPD to acute leukemia.
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PMID:A novel translocation (17;19)(p13;p13) in a patient with acute myelomonocytic leukemia. 1081 77

In present studies, treatment with tumor necrosis factor (TNF)-related apoptosis inducing ligand (TRAIL, also known as Apo-2 ligand [Apo-2L]) is shown to induce apoptosis of the human acute leukemia HL-60, U937, and Jurkat cells in a dose-dependent manner, with the maximum effect seen following treatment of Jurkat cells with 0.25 microg/mL of Apo-2L (95.0% +/- 3.5% of apoptotic cells). Susceptibility of these acute leukemia cell types, which are known to lack p53(wt) function, did not appear to correlate with the levels of the apoptosis-signaling death receptors (DRs) of Apo-2L, ie, DR4 and DR5; decoy receptors (DcR1 and 2); FLAME-1 (cFLIP); or proteins in the inhibitors of apoptosis proteins (IAP) family. Apo-2L-induced apoptosis was associated with the processing of caspase-8, Bid, and the cytosolic accumulation of cytochrome c as well as the processing of caspase-9 and caspase-3. Apo-2L-induced apoptosis was significantly inhibited in HL-60 cells that overexpressed Bcl-2 or Bcl-x(L). Cotreatment with either a caspase-8 or a caspase-9 inhibitor suppressed Apo-2L-induced apoptosis. Treatment of human leukemic cells with etoposide, Ara-C, or doxorubicin increased DR5 but not DR4, Fas, DcR1, DcR2, Fas ligand, or Apo-2L levels. Importantly, sequential treatment of HL-60 cells with etoposide, Ara-C, or doxorubicin followed by Apo-2L induced significantly more apoptosis than treatment with Apo-2L, etoposide, doxorubicin, or Ara-C alone, or cotreatment with Apo-2L and the antileukemic drugs, or treatment with the reverse sequence of Apo-2L followed by one of the antileukemic drugs. These findings indicate that treatment with etoposide, Ara-C, or doxorubicin up-regulates DR5 levels in a p53-independent manner and sensitizes human acute leukemia cells to Apo-2L-induced apoptosis. (Blood. 2000;96:3900-3906)
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PMID:Antileukemic drugs increase death receptor 5 levels and enhance Apo-2L-induced apoptosis of human acute leukemia cells. 1109 76

Gene amplification is a rare phenomenon in acute leukemia, but recently amplification of specific chromosome bands containing genes rearranged in leukemia-specific balanced chromosome translocations has been reported in a few cases. We detected duplication or amplification of chromosome band 11q23 with 3-7 copies of the MLL gene by fluorescence in situ hybridization in 12 out of 70 unselected patients with therapy-related myelodysplasia or acute myeloid leukemia (17%). In all but one case, the supernumerary copies of MLL were located to previously unidentified marker chromosomes or unbalanced translocations. In 4 of the 12 patients, 2-6 copies were located together on the same chromosome arm representing amplification, 7 patients had single, extra duplicated copies of MLL, whereas both amplification and duplication were observed in the same cell in 1 patient. Comparative genomic hybridization demonstrated gain of varying, often large parts of 11q in five patients. The MLL gene was shown to be unrearranged in all 12 patients. Seven out of eight patients with duplication or amplification of MLL had mutations of TP53. Patients with supernumerary copies of MLL were in general older (P = 0.007) and had a shorter survival (P < 0.001) compared to other patients. Duplication or amplification of MLL was significantly associated with a complex karyotype (P = 0.002), with deletion or loss of 5q (P = 0.001), and with prior therapy with alkylating agents. These results support the existence of a specific genetic pathway in t-MDS and t-AML with many previously unidentified chromosome aberrations demonstrated to represent extra copies of parts of 11q, including the unrearranged MLL gene.
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PMID:Duplication or amplification of chromosome band 11q23, including the unrearranged MLL gene, is a recurrent abnormality in therapy-related MDS and AML, and is closely related to mutation of the TP53 gene and to previous therapy with alkylating agents. 1128 33

We have analyzed by immunocytochemistry the p53 and Bcl-2 proteins expression in 49 patients with B-ALL, T-ALL and AML at the time of initial diagnosis. The diagnosis was based on morphologic and cytochemical criteria and on immunophenotyping. To demonstrate the p53 protein expression, p53 specific mouse antihuman immunoreagent clone DO-1 that recognizes both wild and mutated p53 protein was used. To detect Bcl-2 a monoclonal antibody that recognizes the 26-kD Bcl-2 protein was applied. For evaluation of both proteins a sensitive Immunotech detection kit based on peroxidase labeled streptavidin biotin reagent was utilized. The patients were divided according to the presence or absence of both, nuclear p53 and cytoplasmic Bcl-2 proteins. A relative low frequency of p53 protein expression in B- and T-lineage acute lymphoblastic leukemia has been shown at diagnosis. In AML cases, the frequency of p53 expression was higher than that in ALL. Bcl-2 protein immunoreactivity has been found in the majority of acute leukemia patients. The marked heterogeneity in the percentage of p53 and Bcl-2 positive cells in individual patients was observed. Comparative analysis of the distinct acute leukemia subtypes according to the percentage of p53 and Bcl-2 positive cells showed no significant differences except for p53 protein positivity in relation between T-ALL and AML cases. The samples from healthy subjects used as a control exhibited very low proportion of positively stained cells and significantly differed from p53 as well as Bcl-2 positive cases. p53 and Bcl-2 positivity have not been significantly affected neither by age, sex nor WB C counts. Association between myeloid cells maturation and proportion of p53 and Bcl-2 positive cells was observed. Noteworthy was the inverse relation between the higher proportion of p53 positive cells and low Bcl-2 positivity in some cases of acute leukemia. Although our preliminary results need to be confirmed in a larger group of patients, immunocytochemical analysis of p53 and Bcl-2 proteins, indicators of cell alterations, may help to identify risk patients requiring intensive therapy.
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PMID:Expression of p53 and bcl-2 proteins in acute leukemias: an immunocytochemical study. 1194 43

The t(8;21) is one of the most frequent chromosomal translocations associated with acute leukemia. This translocation creates a fusion protein consisting of the acute myeloid leukemia-1 transcription factor and the eight-twenty-one corepressor (AML1 ETO), which represses transcription through AML1 (RUNX1) DNA binding sites and immortalizes hematopoietic progenitor cells. We have identified the p14(ARF) tumor suppressor, a mediator of the p53 oncogene checkpoint, as a direct transcriptional target of AML1 ETO. AML1 ETO repressed the p14(ARF) promoter and reduced endogenous levels of p14(ARF) expression in multiple cell types. In contrast, AML1 stimulated p14(ARF) expression and induced phenotypes consistent with cellular senescence. Chromatin immunoprecipitation assays demonstrated that AML1 ETO was specifically bound to the p14(ARF) promoter. In acute myeloid leukemia samples containing the t(8;21), levels of p14(ARF) mRNA were markedly lower when compared with other acute myeloid leukemias lacking this translocation. Repression of p14(ARF) may explain why p53 is not mutated in t(8;21)-containing leukemias and suggests that p14(ARF) is an important tumor suppressor in a large number of human leukemias.
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PMID:The t(8;21) fusion protein, AML1 ETO, specifically represses the transcription of the p14(ARF) tumor suppressor in acute myeloid leukemia. 1209 6


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