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)

We have studied the effects of retinoic acid (RA) on bone marrow leukemic cells from children with acute nonlymphocytic leukemia (ANLL) at the time of diagnosis, and on cells from four ALL/lymphoma cell lines (common-ALL, pre-B-ALL, T-ALL, and Burkitt's lymphoma) derived from children with these diseases. Cells were cultured in methylcellulose medium with clinically attainable concentrations (0.25-2.0 microM) of RA for two weeks prior to colony and cluster quantitation. Myeloid progenitor cells (CFU-GM) obtained from children with hematologically normal bone marrows were also cultured with RA. Of 19 patients with ANLL whose cells formed colonies, 16 (84%) were inhibited by RA; three patients showed either increased or unchanged colony numbers with RA. RA had a similar effect on both ANLL cluster and colony growth. RA (1-2 microM) also inhibited colony growth of the pre-B-ALL, common-ALL, and Burkitt's lymphoma lines; the T-ALL line and normal bone marrow CFU-GM were not inhibited. The inhibitory effects of RA on pediatric ANLL bone marrow cells and on some ALL/lymphoma cell lines compared with CFU-GM indicate that RA may be of value in the treatment of these malignancies in children.
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PMID:Effect of retinoic acid on the clonal growth of childhood myeloid and lymphoid leukemias: a pediatric oncology group study. 633 11

The cell membrane fraction from c-ALL, B-ALL, Ph' + ALL, B-CLL, T-CLL, AML, blastic-CML, normal leukocytes, PHA-stimulated lymphocytes and several T, B and myeloid human leukemic cell lines has been used in different cell types to demonstrate different patterns of glycosyltransferase activity. Both B- and T-CLL cell membranes have low fucosyltransferase B and A activity compared to acute leukemias; while sialyltransferase activity is higher in B- than in T-CLL. AML cell membranes and ML-1 human myeloblast cell line membranes have exceptionally high fucosyltransferase A activity compared to all other leukemic cells or cell lines. Human leukemic B cell lines expressed cell membrane sialyltransferase, fucosyltransferase B and probably fucosyltransferase A activity several times higher than T cell lines. Human myeloid cell lines ML-1 and HL-60 express 5- to 20-fold higher galactosyltransferase activity than human leukemic T and B cell lines. Both sialyltransferase and galactosyltransferase activity were higher in all leukemic cells than in normal leukocytes and PHA-stimulated normal lymphocytes. This is the first study carried out on glycosyltransferases using cells obtained from leukemic patients characterized immunologically. These results indicate that all glycosyltransferase activity, with the exception of fucosyltransferase activity in CLL, were higher in leukemic cells than in normal cells. Moreover, large differences in these enzymes, e.g. very high galactosyltransferase activity in myeloid cell lines compared to B and T cell lines, of fucosyltransferase A in AML and myeloblast cell lines compared to all other cells, and of sialyltransferase in B-CLL or B cell lines compared to T-CLL or T cell lines, could be useful in characterizing certain leukemias and hematopoietic cell lines.
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PMID:Glycosyltransferase activities in leukemic cells from patients and human leukemic cell lines. 641 47

14 patients developed acute nonlymphocytic leukemia and 1 patient developed Burkitt's leukemia following longterm chemotherapy and/or radiotherapy for other disorders. The main primary disorders included multiple myeloma, Hodgkin's disease, non-Hodgkin's lymphoma and breast carcinoma. Acute leukemia developed earlier in patients treated by chemotherapy with or without radiotherapy than in patients treated by radiotherapy alone (63 months, range 24-132 months; 201 months, range 48 months to 30 years, respectively). 13 patients presented without organomegaly and 8 were pancytopenic. Abnormalities of myeloid and erythroid cell lines were observed in the majority of the patients. A high rate of acute erythroleukemia (5 out of 14) was found. Increased reticulin fibers were found in 3 patients. The leukemia was invariably refractory to treatment with a median survival of 4 months. The possible role of preexisting abnormal marrow structure in the development of therapy-related leukemia is discussed.
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PMID:Acute leukemia following chemotherapy and radiation therapy--a report of 15 cases. 658 10

Nonrandom chromosome changes have been identified in a number of malignant human tumors. The leukemias are among the best studied malignant cells and they provide the largest body of relevant cytogenetic data. In chronic myeloid leukemia, a reasonably consistent translocation [t(9;22) (q34;q11)] is observed in 93 percent of all Ph1 positive patients. In the other patients, translocations are either two-way, involving No. 22 with some other chromosome or complex translocations involving Nos. 9 and 22 and another chromosome. In acute nonlymphocytic leukemia, two translocations are each specifically associated with leukemic cells arrested at two different stages of maturation. One of these, t(8;21)(q22;q22), is found mainly in patients with acute myeloblastic leukemia with maturation (AML-M2). The other, t(15;17)(q22?;q21?), is seen only in patients with acute promyelocytic leukemia (APL-M3). Various translocations have been observed in B-cell acute lymphoblastic leukemia or in Burkitt lymphoma. The most common is t(8;14)(q24;q32), but variants of this, namely t(2;8)(p13?;q24) and t(8;22)(q24;q11), have also been observed; in all of these, the consistent change involves 8q24. The various immunoglobulin loci are located on chromosomes 2, 14, and 22 in the same chromosome band affected by the translocations in B-cell leukemia. These translocations may occur randomly. If a specific translocation provides a particular cell type with a growth advantage, then selection could act to cause the proliferation of this aneuploid cell line vis-a-vis cells with a normal karyotype. In this view, the chromosome change could be the fundamental event leading to the leukemic transformation of an otherwise normal cell. The challenge for the future is to define the genes located at the sites of consistent translocations in myeloid leukemias and to determine the alterations in gene function that are associated with the translocation.
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PMID:Chromosome abnormalities in leukemia and lymphoma. 660 85

A combined immunological, morphological, and cytochemical approach to the study of malignant cells in patients with acute leukemia and lymphoma is presented. Newly produced monoclonal antibodies that bind to antigens of human mononuclear cells (TA-1), or B-lymphocytes (BA-1) were used to study malignant cells from patients with acute lymphoblastic leukemia (ALL). acute myelocytic leukemia, acute myelomonocytic leukemia, and chronic lymphocytic leukemia. Results in lymphoid leukemia-lymphoma patients were compared with other immunological markers and indicate that the major groups of ALL and childhood non-Hodgkin's lymphoma are T-ALL, pre-T-ALL, pre-B-ALL, B-ALL, and non-T, non-B-ALL. In addition, each major group had multiple phenotypes when analyzed with seven immunological markers including the erythrocyte rosette receptor, surface immunoglobulin, cytoplasmic immunoglobulin M, the early lymphocyte-acute lymphoblastic leukemia antigen, monoclonal antibody TA-1, monoclonal antibody BA-1, and a monoclonal antibody against HLA-DR. While immunological heterogeneity was demonstrable within each group, distinct biological behavior was observed, with T-ALL and B-ALL generally presenting as "lymphomas" and the others presenting as "leukemias." Morphological analysis using the French-American-British classification provided independent information in the definition of groups with differing clinical behavior. Cytochemical analyses demonstrated focal paranuclear staining of leukemia cells with acid phosphatase in 73% of T-ALLs and 6% of non-T, non-B-ALLs.
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PMID:Use of monoclonal antibodies, morphology, and cytochemistry to probe the cellular heterogeneity of acute leukemia and lymphoma. 694 5

Glucocorticoid (GC) receptor and terminal deoxynucleotidyl transferase (TdT) activities were studied in leukemia cells to investigate their diagnostic and therapeutic implications. Among cell lines with T-cell character, higher GC-receptor and TdT activities were found in T-ALL (HPB-ALL and ALL-Ichikawa) than in cells from adult pleomorphic T-cell leukemia (HPB-MLT). HPB-Null with pre-B cell-character exhibited moderate GC receptor but low TdT activity; Raji cells and CCRF-SB, derived from B-cell Burkitt lymphoma and B-ALL, respectively, manifested low GC receptor and no TdT activity. The highest GC receptor activity was demonstrated in null-cell ALL, followed, in order, by juvenile T-ALL, adult pleomorphic T-cell leukemia, and AML. Other kinds of lymphoid and monocytic leukemias exhibited low GC receptor and no TdT activity. Although low GC receptor and negative TdT were demonstrated in cells from seven out of nine patients under CML blastic crisis, the last patient had cells with positive TdT and GC receptor activity.
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PMID:Glucocorticoid receptors and terminal deoxynucleotidyl transferase activities in leukemic cells. 697 4

Terminal Transferase (TdT), Adenosine Deaminase (ADA), immunological membrane markers, cytochemical reactivity and cytogenetics were analyzed in 226 patients with ALL, AUL and AML, in 70 patients with CML and in 3 cases of Ph' positive acute leukemia presenting as ALL. TdT was tested in peripheral blood and bone marrow with both the biochemical and immunofluorescence (IF) methods, and ADA was determined biochemically only in peripheral blood cells. By using conventional cytochemistry, cell surface markers determinations, TdT and ADA analysis, three distinct groups are recognized in ALL at presentation: T-ALL with TdT+ and very high ADA values; non-T, non-B ALL with TdT+ and intermediate levels of ADA; B-ALL with TdT absence and low levels of ADA. Clinical presentation and responses to therapy in adult and children ALL were correlated to TdT determinations. The median survivals in adults, calculated for TdT+ and TdT- groups, were 14.2 and 5.6 months, respectively. TdT and ADA were determined in ALL during remission. The wide fluctuation observed for TdT IF and ADA values prevented a reliable monitoring of remissions. At relapse, TdT and ADA values were similar to those found for ALL at presentation; TdT IF determinations were diagnostic in cases showing CNS involvement as the only localization. Forty per cent of AUL and 11% of AML cases were positive for TdT; the medians of ADA values of the TdT+ cases in both AML and AUL were several times higher than those obtained in the TdT- group. While TdT positivity and high ADA had a favorable prognostic value in AUL, similar conclusions can not be drawn at the moment for AML. In chronic phase of CML, TdT was strictly negative and ADA values were increased over the control line only in cases showing initial signs of transformation. In acute phase, the cases positive for TdT (32%) presented a significantly higher ADA activity than the TdT negative ones. The actuarial survival curves for the TdT+ and TdT- groups differ significantly, presenting median survivals from onset of phase of 11 and 4.8 months respectively. The three cases of Ph' positive ALL were all TdT+, presented high ADA values and entered chronic phase of CML after therapy.
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PMID:Clinical relevance of terminal transferase and adenosine deaminase in leukemia. 705 80

Cell cycle kinetics of childhood acute leukemia were determined by the in vitro labeling of marrow blast cells with bromodeoxyuridine (BrdUrd) and subsequent flow cytometry of BrdUrd/DNA and Ki67/DNA in 18 patients with acute lymphocytic leukemia (ALL) and eight patients with acute nonlymphocytic leukemia (ANLL). The BrdUrd-labeling index (BrdUrd-LI) and the duration of S phase (Ts) were calculated from the slope of the regression line obtained by plotting the serial labeling indices against the labeling time. The Ts and potential doubling time (DTpot) of marrow leukemia cells varied from 6.1 to 34.3 h (median 14.3 h) and 1.1 to 20.7 days (median, 7.3 days), respectively. The duration of the total cell cycle time (Tc) which was determined by the Ki-67-derived growth fraction (Ki-67-GF) varied from 14.0 to 112.5 h (median 43.2 h). BrdUrd-LI, DTpot, Ki-67-GF and Tc were significantly correlated with the subtypes (early B-ALL, T/B- ALL and ANLL) of the disease. The median values of LI and GF were much lower in ANLL than in ALL. However, the low proliferative activity of ANLL was not accompanied by a prolonged duration of the total cell cycle time. The longest median duration of Tc was noted in early B-ALL (75.2 h) and the median Tc in ANLL (36.7 h) was close to that in T/B-ALL (34 h). Ts appeared to be rather independent of subtypes of the disease. These results show that there are distinct in vitro growth characteristics in relation to the subtypes of childhood acute leukemia.
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PMID:Cell cycle kinetics in childhood acute leukemia studied with in vitro bromodeoxyuridine labeling, Ki67-reactivity, and flow cytometry. 747 84

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

Hemizygous and homozygous deletions of the type I interferon gene cluster (IFN) have been detected in about 20% of acute lymphoblastic leukemias. A putative tumor suppressor gene (TSG) is thought to be located centromeric to the IFN cluster on chromosomal bands 9p21-22. We studied the accuracy of fluorescence in situ hybridization (FISH) for detecting deletions in interphase cells using yeast artificial chromosome (YAC) clones containing all or part of the IFN cluster. FISH probes were generated from YACs (320-1300 kb in size) by a sequence-independent amplification technique (SIA). Fifteen cell lines (nine T-ALL, three B-cell precursor ALL, one B-ALL, one AML, one CML-BC) that had been well characterized by conventional cytogenetic analysis and molecular techniques were analyzed. We were able to detect all numerical changes of the IFN cluster including homozygous and hemizygous deletions accurately and to define subclones of the cell lines. Moreover, in six cell lines we were able to identify subclones. In dilution experiments the detection thresholds for subpopulations with homozygous and hemizygous deletions were determined to be 5% and 7.5%, respectively.
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PMID:Detection of 9p deletions in leukemia cell lines by interphase fluorescence in situ hybridization with YAC-derived probes. 765 4


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