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: UMLS:C0023467 (acute myeloid leukemia)
35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Leukemic cells from seventy patients with various types of human leukemias were examined for expression of the WT1 gene, the Wilms' tumor gene located at chromosome 11p13. WT1 was expressed in 7 of 16 cases of acute lymphoblastic leukemia, 15 of 22 with acute myelogenous leukemia and 8 of 10 in blast crisis of chronic myelogenous leukemia. No detectable WT1 RNA was found in chronic leukemias, including chronic lymphocytic leukemia, plasma cell leukemia, hairy cell leukemia and chronic myelogenous leukemia in chronic phase. The expression pattern of WT1 in these human leukemia samples indicates the involvement of this gene in the early stage of hematological cell differentiation.
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PMID:Expression of the Wilms' tumor gene (WT1) in human leukemias. 131 88

One hundred-twenty-five adult patients with de novo acute myeloid leukemia (AML) were treated according to a standard 7 + 3 induction regimen. Karyotype and immunological phenotype of blasts examined prior to treatment were correlated with each other, with response to treatment and duration of survival. The following monoclonal antibodies (mAbs) were used for immunological phenotyping: VIM-D5 (CD15), MY7 (CD13), MY9 (CD33), VIM-2 (CDw65), VIM-13 (CD14), 63D3 (CD14), VID-1 (anti HLA-DR), WT1 (CD7), CLB-Ery3 (antiblood group H antigen), C17-27 (CD61), and an antiserum against TdT. Despite a considerable overlap between the individual groups, patients with specific aberrations as defined by the MIC classification (n = 39) showed distinct, characteristic, myeloid or myelomonocytic immunophenotypes. In M2/t(8;21) there was a significant association with negativity to CD13, in M3/t(15;17) with negativity to CD15 and HLA-DR, whereas in M4/inv(16) expression of blood group H antigen was unexpectedly found. The response to therapy, as well as rate of complete remission as duration of survival, was better in patients with M2/t(8;21), M3/t(15;17), and M4Eo/inv(16) as compared to all other patients and significantly worse in patients with M5a/t/del(11)(q23). In 35 patients with normal karyotype and 16 patients with cytogenetic anomalies not presently associated with FAB subtypes the expected correlations of rather immature myeloid immunologic phenotypes with M1 and M2 morphology and CD14 expression in monoblastic leukemias was found. Remission rate and survival were significantly worse in 19 patients with complex nonrandom aberrations, where blast cell expression of blood group H antigen and of TdT were significantly increased.
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PMID:Prognostic impact of karyotype and immunologic phenotype in 125 adult patients with de novo AML. 163 77

The prognostic significance of the expression of surface membrane antigens on the blasts of 123 consecutive patients with de novo acute myeloblastic leukemia (AML) was evaluated. For this purpose, reactivity of monoclonal antibodies (mAbs) CLB-ERY3 (antiblood-group H antigen), VIM-D5 (CD15), WT1 (CD7), MY7 (CD13), MY9 (CD33), VID-1 (antihuman leukocyte antigen locus DR [anti-HLA DR]), VIM-2 (CDw65L), VIM-13 (CD14), 63D3 (CD14) and anti-TdT with leukemic blast cell populations was prospectively analyzed with respect to the rates of complete remission (CR), continuous complete remission (CCR), and survival. The overall rate of CR was 65%, the 6-year rates of overall CCR and survival were 23% and 13%, respectively (median period of patient observation, 30 months). Of all Abs tested, four (CLB-ERY3, MY7, anti-TdT, and VIM-D5) were found to be of prognostic value. Reactivity of CLB-ERY3, MY7, and anti-TdT was predictive for CR (CLB-ERY3+, 43% v CLB-ERY3-, 73%, P less than .02; MY7+, 59% v MY7-, 91%, P less than .003; TdT+, 28% v TdT-, 71%, P less than .001, respectively) and probability of survival (significantly lower survival rates: CLB-ERY3+, P less than .02; MY7+, P less than .03; and TdT+ cases, P less than .001, respectively). Reactivity of VIM-D5 was significantly associated with a higher probability of CCR (P less than .01). Our results confirm earlier reports on the prognostic significance of expression of CD13 and TdT in AML and indicate CLB-ERY3 (antiblood-group H antibody) and VIM-D5 (CD15) as further markers predictive for the clinical outcome in patients with de novo AML.
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PMID:Prognostic significance of surface marker expression on blasts of patients with de novo acute myeloblastic leukemia. 230 87

A new myelomonoblastic cell line (M20) was established from the peripheral blood of a ten-year-old child with acute myeloblastic leukemia, using an improved method for supporting the initial stages of cell proliferation. The addition of irradiated macrophage monolayers to the proliferating cells appeared to overcome the deterioration of the primary cultures and enable them to continue proliferating until they became independent of this environment. The cell line that developed consisted of myeloblasts and promyelocytes characterized by light and scanning electron microscopy, cytochemistry, and enzymatic activities. The cells expressed Fc receptors and WT1 antigens but did not exhibit HLA-DR, HMA1, Epstein-Barr virus nuclear antigen, and surface Ig. The M20 cells produced colonies when cultured in semisolid medium and secreted lysozyme, prostaglandin E2, and interleukin 1. An attempt was also made to analyse the position of the M20 cells in the scheme of differentiation of the myelomonocytic lineage using different approaches. Treatment of the cells with 12-O-tetradecanoyl phorbol 13-acetate induced their adherence to plastic surfaces and partial maturation to macrophages as judged by morphological criteria, cytochemistry, and enzyme activities. However, comparison of the M20 cells to other well-established myelomonoblastic cell lines did not reveal any pattern suggesting a possible relationship between surface markers, cell function, and differentiation pathway of the various cell lines tested. Establishment of additional cell lines and identification of new markers may assist in defining the mechanisms involved in normal differentiation and malignant transformation of this cell lineage. In addition, such cell lines may also provide a tool for the quantitative recovery of a variety of monokines.
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PMID:A new myelomonoblastic cell line (M20): analysis of properties, differentiation, and comparison with other established lines of similar origin. 385 83

The biosynthetic and structural characteristics of the human thymocyte/T cell antigen defined by the monoclonal antibody WT1 have been studied. WT1 identified a monomeric cell surface glycoprotein of Mr = 40,000 ( gp40 ). Cross-absorption experiments and two-dimensional gel analyses indicate that WT1 and another monoclonal antibody, 3A1, react with the same structure. This glycoprotein was asymmetrically inserted into the rough endoplasmic reticulum as a transmembrane structure. At this stage, the polypeptide chain possessed two N-linked, "high-mannose" type glycans; these were subsequently processed into endo-H-insensitive, complex oligosaccharides during intracellular transport to the cell surface. Inhibition of N-linked glycosylation with tunicamycin failed to block the processing of the nonglycosylated Mr = 29,000 polypeptide to a glycoprotein of Mr = 33,000. Cleavage of the mature Mr = 40,000 form with endo-F yielded a similar Mr = 33,000 product. The kinetics of synthesis of the Mr = 33,000 intermediate in conjunction with gal-NAc oligosaccharidase digestion indicated the presence of O-linked glycans in the mature cell surface WT1 antigen. The fully processed cell surface form of the polypeptide also contains covalently associated fatty acid, and was labeled by 32P phosphate, the predominantly labeled phosphoamino acid being phosphoserine. We also demonstrate biochemically that the reactivity of WT1 with cells from a few patients with acute myeloid leukemia reflects genuine expression of the gp40 structure on myeloid cells.
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PMID:Isolation and characterization of a human T lymphocyte-associated glycoprotein (gp40). 660 85

The wt1 gene is located on chromosome 11p13 and encodes a zinc finger motif-containing transcription factor involved in regulation of growth and differentiation. Its expression was shown during embryonic development in various tissues as well as in a few human malignancies including acute leukemias. Using RT-PCR, we found wt1 gene expression in blast cells of the majority of 150 acute leukemia patients. Particularly, the wt1 transcript was detected in 12 of 14 (86%) pre-pre-B-ALL patients, in 33 of 41 (80%) cALL patients, in 23 of 31 (74%) T-ALL patients, and in 53 of 57 (93%) AML patients. Additionally, mononuclear cells from CML patients expressed the wt1 gene only when diagnosed with blast crisis. In contrast to acute human leukemias, mononuclear cells from reactive bone marrow (n = 4), and peripheral blood of healthy volunteers (n = 20), as well as normal peripheral CD34+ hematopoietic progenitors (n = 6) did not express the wt1 gene at detectable levels. Using the anti-WT1 MoAb 6F-H2 in an immunofluorescence assay on single cell level, we found the translated WT1 protein only in nuclei of leukemia blast cells but not in nuclei of normal CD34+ hematopoietic progenitor cells. Blast cells of 12 of 20 leukemia patients (60%) all tested positive for the wt1 gene expression by RT-PCR displayed a strong nuclear immunofluorescence. Its expression in the majority of human acute leukemias but not in normal mononuclear blood cells and normal CD34+ hematopoietic progenitors qualifies the wt1 gene transcript as a 'pan-acute leukemic' marker probably useful in monitoring minimal residual disease after chemotherapy and in detecting leukemic blast cells in purged or unpurged hematopoietic stem cell preparations intended to be used for autologous bone marrow transplantation.
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PMID:Presence of Wilms' tumor gene (wt1) transcripts and the WT1 nuclear protein in the majority of human acute leukemias. 759 70

The WT 1 gene has been isolated as a tumor suppressor gene of Wilms' tumor. Using reverse transcriptase-polymerase chain reaction (RT-PCR), relative levels of the WT 1 gene expression was examined in 87 patients with acute leukemia, 25 with chronic myelogenous leukemia (CML), and 24 with non-Hodgkin's lymphoma (NHL). Significant levels of the WT 1 gene were expressed in all leukemia patients, and for CML the levels increased as the clinical phase progressed. No point mutations were found in the WT 1 gene when samples from 15 acute leukemia patients were subjected to PCR single-strand conformation polymorphism analysis. In striking contrast to acute leukemia, the levels of WT1 gene expression for NHL were significantly low or even undetectable. The levels of WT 1 gene expression inversely correlated with the prognosis of acute leukemia. The quantification of the WT 1 gene expression made it possible to detect minimal residual disease (MRD) in acute leukemia regardless of the presence of absence of tumor-specific DNA markers. Simultaneous monitoring of MRD by RT-PCR using primers for specific DNA markers in four patients (two AML-M3 with PML/RAR-alpha, one AML-M2 with AML1/ETO, and one CML with bcr/abl) detected MRD comparable to that obtained from quantitation of WT 1 gene expression. In a patient with acute promyelocytic leukemia, the limits of leukemic cell detection by RT-PCR using either WT 1 or PML/RAR-alpha gene primers were 10(-3)-10(-4) and 10(-4) for bone marrow, and 10(-5) and 10(-4) for peripheral blood, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[WT 1 and leukemia]. 764 50

The Wilms tumour (WT1) gene was first localized through its deletion in individuals with the WAGR syndrome (Wilms tumour, aniridia, genitourinary abnormalities and mental retardation). Such individuals have a 30-50% lifetime risk of developing Wilms tumour and carry constitutional interstitial deletions of chromosome 11p13, including the WT1 gene. Second primary tumours occurring in such individuals might also be related to their genetic predisposition to cancer, as shown for hereditary retinoblastoma. We have found a mutation in the zinc finger region of the remaining WT1 allele in a case of acute myeloid leukaemia developing in a Wilms tumour survivor with the WAGR syndrome. This mutation would be predicted to disrupt DNA binding by this developmentally regulated transcription factor. This finding implicates the WT1 gene in the regulation of myelopoiesis and suggests that WT1 mutations may be found in some sporadic leukaemias.
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PMID:The Wilms tumour (WT1) gene is mutated in a secondary leukaemia in a WAGR patient. 783 22

The WT1 gene encoding a zinc finger polypeptide is a tumor suppressor gene that plays a key role in the carcinogenesis of Wilms' tumor. Reverse transcriptase-polymerase chain reaction (RT-PCR) was used to examine relative levels of WT1 gene expression (defined in K562 cells as 1.00) in 45 patients with acute myelogenous leukemia (AML), 22 with acute lymphocytic leukemia (ALL), 6 with acute mixed lineage leukemia (AMLL), 23 with chronic myelogenous leukemia (CML), and 24 with non-Hodgkin's lymphoma. Significant levels of WT1 gene were expressed in all leukemia patients and for CML the levels increased as the clinical phase progressed. In striking contrast with acute leukemia, the levels of WT1 gene expression for NHL were significantly lower or even undetectable. Clear correlation was observed between the relative levels of WT1 gene expression (< 0.6 v > or = 0.6) and the prognosis for acute leukemia (AML, ALL, and AMLL). Patients with less than 0.6 levels had significantly higher rates of complete remission (CR), disease-free survival, and overall survival than those with > or = 0.6 levels, whereas CR could not be induced in any of the 7 patients with acute leukemia having greater than 1.0 levels of WT1 gene expression. The quantitation of the WT1 gene expression made it possible to detect minimal residual disease (MRD) in acute leukemia regardless of the presence or absence of tumor-specific DNA markers. Continuous monitoring of the WT1 mRNA was performed for 9 patients with acute leukemia. In 4 patients, MRD was detected 2 to 8 months before clinical relapse became apparent. In 2 other patients, the WT1 mRNA gradually increased after discontinuation of chemotherapy. No MRD was detected in the remaining 3 patients with AML who received intensive induction and consolidation therapy. Simultaneous monitoring of MRD by RT-PCR using primers for specific DNA markers in 3 patients (2 AML-M3 with PML/RAR alpha, and 1 AML-M2 with AML1/ETO) among these 9 patients detected MRD comparable with that obtained from quantitation of WT1 gene expression. In a patient with acute promyelocytic leukemia, the limits of leukemic cell detection by RT-PCR using either WT1 or promyelocytic leukemia/retinoic acid receptor-alpha gene primers were 10(-3) to 10(-4) and 10(-4) for bone marrow, and 10(-5) and 10(-4) for peripheral blood, respectively. Therefore, we conclude that WT1 is a new prognostic factor and a new marker for the detection of MRD in acute leukemia.
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PMID:WT1 as a new prognostic factor and a new marker for the detection of minimal residual disease in acute leukemia. 794 79

Wilms' tumor (WT) is a pediatric malignancy that occurs in embryonic kidney. Recently, a putative Wilms' tumor gene (WT1), located on chromosome 11p13, was isolated and characterized. We found constitutive expression of WT1 mRNA in eight out of 22 hematopoietic cell lines and seven out of 26 clinical samples which were derived from patients with various types of hematologic malignancies. WT1 mRNA was detected in four out of six myeloid cell lines, four out of 10 cases of acute myelocytic leukemia, three out of 15 lymphoid cell lines, one out of nine cases of lymphoid malignancies, and one out of six cases of chronic myelocytic leukemia in accelerated phase and blast crisis. One unclassified hematopoietic cell line and a case of myelodysplastic syndrome also expressed WT1 mRNA. No mutations were detectable in the cell lines by Southern blot analysis and a polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) analysis in the four zinc finger domains of the WT1 gene. These results suggest that WT1 gene is expressed in several types of immature lymphoid or myeloid leukemia cells possibly without alterations of the WT1 gene.
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PMID:Expression of the candidate Wilm's tumor gene, WT1, in human leukemia cells. 832 Oct 47


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