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Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Autologous bone marrow (BM) transplantation after high dose therapy is widely used to treat acute leukemia, lymphoma, and selected solid tumors. In studies of BM purging with chemical agents, monoclonal antibodies (MoAbs), or other agents, the emphasis has been on the efficacy of tumor cell removal and sparing of hematopoietic progenitor cells. Two commonly used methods of BM purging for patients with acute myeloid leukemia have been the drug 4-hydroperoxycyclophosphamide (4-HC) and (MoAbs) directed to myeloid antigens such as CD14, CD15, and CD33. Although both methods of BM purging have potent activity against leukemia cells, 4-HC is also quite toxic to normal hematopoietic progenitor cells in the same concentrations that are used to deplete leukemia cells. To further characterize the cellular composition of BM after purging, we examined the effects of MoAbs plus complement and 4-HC on cells of the lymphoid lineage in the BM. 4-HC exerted a concentration-dependent cytotoxicity on clonogenic T lymphocytes, natural killer (NK) cells, and lymphokine (interleukin-2)-activated killer (LAK) cells, whereas the anti-CD14 and anti-CD15 MoAbs had little effect. At a concentration of 4-HC commonly used for BM purging (60 micrograms/mL), there were 4 to 5 logs of T-cell depletion and almost complete elimination of NK- and LAK-cell activity. In contrast, 4-HC at low concentrations (eg, 3 micrograms/mL) spared the majority of lymphoid cells suggesting that low concentration 4-HC combined with MoAb purging may be a desirable alternative to higher concentration 4-HC. These data indicate that purging with antimyeloid MoAbs, but not with 4-HC, spares the function of mature graft lymphocytes. Infusion of viable lymphocytes may be important for the transfer of immune memory against microbial and neoplastic antigens and may hasten immune reconstitution. In addition, mature graft lymphocytes may also be selectively activated and expanded in conjunction with interleukin-2 administration after BM transplantation.
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PMID:Differential effect of 4-hydroperoxycyclophosphamide and antimyeloid monoclonal antibodies on T and natural killer cells during bone marrow purging. 751 45

The effects of six recombinant human cytokines: erythropoietin, GM-CSF, G-CSF, interleukin-3, -4 and -6 on the proliferation and differentiation of a human multilineage myeloid leukemia cell line MHH 225, established from the bone marrow of an AML(M7) patient in our laboratory determined by changes in antigen expressions using monoclonal antibodies in APAAP technique were examined in liquid suspension culture. The MHH 225 cells have been growing exponentially without cytokines or conditioned media. About 90 per cent of MHH 225 cells are CD33+ CD34+ CD3- CD7- CD19- CD20- TdT- with 57.6 per cent, 28.3 per cent and 7.8 per cent of them being CD41+, glycophorin A+ and CD15+, respectively. After five days of treatment with erythropoietin, GM-CSF, G-CSF or IL-6 no change was observed in MHH 225 cell antigens expression. IL-3 (100 U/ml) induced a moderate increase in only CD13 and alpha naphthyl esterase positive cells from 6.5 +/- 1.9 per cent and 5.7 +/- 2.4 per cent in control cultures to 21.6 +/- 3.0 per cent and 19.1 +/- 2.8 per cent, respectively. On the other hand, 100 U/ml IL-4 significantly increased the number of CD13, CD15 and alpha naphthyl esterase positive cells to 48.9 +/- 5.0 per cent, 47.2 +/- 3.6 per cent and 46.1 +/- 3.0 per cent, p < 0.001, respectively. Also, 100 U/ml IL-4 decreased the number of CD41 positive cells from 57.6 +/- 2.8 per cent to only 25.9 +/- 3.6 per cent and did not change the number of CD33 or glycophorin A positive cells. The present results showed that out of the six myelopoietic growth factors tested, IL-4 was the only one to inhibit selectively the proliferation of CD33+ CD41+ leukemic megakaryoblast cells suggesting that IL-4 may have a lineage regulatory effect in favour of a myeloblastic CD33+ CD13+ CD15+ at the expense of a megakaryoblastic CD33+ CD41+ amplification in human leukemia cells and with apparently no effect on leukemic erythroblast cells. The MHH 225 cell line provides a useful tool and freely available model to scientists for studying signal transduction via IL-4 and for studies of 'lineage switch'.
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PMID:Interleukin-4 inhibits proliferation of human leukemic megakaryoblast cell line MHH 225. 752 Aug 82

New technology allows highly sensitive flow cytometric detection and quantitative analysis of intracellular antigens in normal and malignant hemopoietic cells. With this technology, the earliest stages of myeloid and lymphoid differentiation can easily and reliably be identified using antibodies directed against (pro-)myeloperoxidase/MPO, CD22 and CD3 antigens, respectively. Particularly for the analysis of undifferentiated acute myeloblastic leukemia (AML) cells, the immunological demonstration of intracellular MPO or its enzymatically inactive proforms is highly relevant, since other myeloid marker molecules such as CD33, CD13, or CDw65 are either not restricted to the granulomonocytic lineage or appear later in differentiation. By combining MPO staining with staining for lactoferrin (LF), undifferentiated cells can be distinguished from the granulomonocytic maturation compartment in bone marrow, since LF is selectively expressed from the myelocyte stage of differentiation onward. The list of informative intracellular antigens to be used in leukemia cell analysis will certainly expand in the near future. One candidate, intracellular CD68, has already been tested by us, and results are presented. Also dealt within this article are surface marker molecules not (as yet) widely used in leukemia cell analysis but with the potential to provide important additional information. Among them are the surface structures CD15, CD15s, CDw65, CD79a (MB-1), CD79b (B29), CD87 (uPA-R), and CD117 (c-kit).
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PMID:Flow cytometric analysis of cell-surface and intracellular antigens in leukemia diagnosis. 753 75

An immunohistochemical study by avidin-biotin-peroxidase was performed on paraffin-embedded and decalcified bone marrow biopsies in 31 acute leukemias (19 myeloid and 12 lymphoblastic). The Ulex Europaeus lectin and 14 antibodies (anti-CD45, -CD34, -myeloperoxidase, -lysozyme, -CD15, -CD68, -carcinoembryonic antigen, -factor VIII-related antigen, BNH9, anti-CD45RO, -CD3, -CD20, DBB42 and DBA44) were tested. All acute myeloid leukemias from M0 to M5 type were stained by either the anti-myeloperoxidase or anti-lysozyme antibodies. CD68, CD15 and the carcinoembryonic antigen were respectively expressed in 80%, 40% and 20% of myeloid leukemias from M1 to M5 type. The Ulex Europaeus lectin and the anti-factor VIII-related antigen antibody stained only the M7 leukemia and the anti-CD3 antibody stained only the T acute lymphoblastic leukemia. DBB42 was expressed by 63% of B-lineage lymphoblastic leukemias and CD20 by 36%. No leukemia was stained by DBA44. Immunohistochemistry on bone marrow biopsy can assess the lineage of most acute leukemias with the use of a panel of antibodies such as the anti-myeloperoxidase, -lysozyme, -CD68, -CD20, DBB42, -CD3, BNH9, anti-factor VIII-related antigen antibodies and the Ulex Europaeus lectin.
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PMID:[Immunohistochemical characterization of acute leukemia. Study of 31 bone marrow biopsies]. 753 64

Antigen CD34 and other markers of cell membrane were investigated in cells from 43 patients with primary acute nonlymphoblastic leukemia (ANLL) by immunofluorescence test. The blast cells of 13 patients (30.2%) expressed antigen CD34. The patients with positive CD34 were no significantly different from the remaining 30 patients with negative CD34 with respect to age, serum lactate dehydrogenase (LDH), hemoglobin, white blood cell count, platelet count and the proportion of blast cells in blood and bone marrow, but their blasts were more likely to express HLA-DR, CD38, CD7 and lack of CD15 antigen. These patients had FAB M1 or M5a morphologic characteristics and lower complete remission (CR) rate. This result demonstrated that CD34 positive ANLL is poorly differentiated.
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PMID:[Clinical and immunophenotyping features of CD34-positive acute nonlymphoblastic leukemia]. 754 28

A case of 77-year-old female with multiple myeloma (IgG-k) developed acute myelomonocytic leukemia (AMMoL) following a myelodysplastic stage after chemotherapy with melphalancyclophosphamide combinations for 6 years. The leukemic blast cells expressed both myeloid antigens (CD11b, CD13, CD14, CD15, CD33 and CD34) and T/B lymphoid antigens (CD2, CD4, CD22 and PCA1). Cytogenetic analysis revealed a chromosome deletion -7. Analysis of immunoglobulin genes showed the heavy chain genes in germ line configuration. These findings indicate that the AMMoL was a therapy-related stem cell leukemia and was a clonal origin genetically different from multiple myeloma irrespective of plasma cell phenotype.
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PMID:Acute myelomonocytic leukemia in a patient with multiple myeloma: evidence for different clonal origin. 754 40

The aim of the present study was to analyze the incidence of AML cases displaying more than one blast cell subpopulation by immunophenotype at diagnosis, since, any of them, although minimal, can be responsible for the relapse. For this purpose we have prospectively investigated the immunophenotype of blast cells from 40 de novo AML patients at diagnosis with a large panel of monoclonal antibodies in double and triple staining combinations analyzed at flow cytometry. The discrimination between the different cell populations was based on: (1) the existence of aberrant phenotypes; (2) differences in light-scatter characteristics; and (3) the expression of differentiation-associated antigens (CD34, CD117, HLADR, CD33, CD15, CD14, CD11b and CD4). More than one blast cell subpopulation was identified in 34 patients (85%), two subpopulations in 12 patients (30%), three in three cases (7.7%), four in 13 patients (32.5%) and five populations in six cases (15%). The most common criteria for discrimination of blast cell subpopulations was based on the expression of maturation-associated antigens and, interestingly, the blast subpopulations defined by higher reactivity for myeloid differentiation-associated markers had a more mature FSC/SSC pattern. In 53% of the patients at least one of the subpopulations identified was minimal (< 10% of the total leukemic cells). Regarding the existence of aberrant phenotypes three situations were observed: (1) none of the subpopulations had antigenic aberrations (10 cases); (2) coexistence of normal and aberrant subpopulations (five cases); and (3) all the subpopulations displayed aberrant phenotypes (19 cases). In 17 of the 23 patients (74%) who had two or more blast cell subpopulations with phenotypic aberrations, at least one aberrant criteria was common to all the subpopulations; this criteria by itself would permit the simultaneous identification of all subpopulations in minimal residual disease (MRD) studies. In the remaining cases the investigation of MRD should be based on the phenotypic characteristics of each subpopulation.
Leukemia 1995 Jun
PMID:Immunological detection of blast cell subpopulations in acute myeloblastic leukemia at diagnosis: implications for minimal residual disease studies. 759 91

Previously, a subset of T cells co-expressing the myeloid antigen CD33 has been described in patients with acute myelogenous leukaemia. However, normal lymphocytes have been viewed as not expressing the CD33 antigen. We have developed culture conditions which allow for the rapid expansion of CD3+CD33+ cells from patients with myeloid leukaemia as well as normal individuals. The protocol for cellular expansion includes the addition of interferon-gamma on day 0, interleukin-1, interleukin-2 and a monoclonal antibody against CD3 on day 1 to peripheral blood lymphocytes. Using this protocol, total cell number increased more than 600-fold within 16 d of culture. Cells could be kept in culture for more than 6 months. Cells of the CD3+CD33+ phenotype increased to 15.2 +/- 4.6% using this protocol after 16 d in culture. These cells have been characterized by flow cytometry and have been found to express the alpha, beta T-cell receptor, co-express the CD2, CD5, CD7 and HLA-DR antigens and did not express CD14 or CD15 antigens. Cells of the CD3+CD33+ phenotype were unable to lyse tumour cells as determined in a 51Cr release assay. In patients with chronic myeloid leukaemia. CD3+CD33+ cells seem to be negative for expression of bcr/abl transcript in contrast to CD33- cells. Our data suggest that CD3+CD33+ cells do exist in peripheral blood from normal individuals.
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PMID:Propagation of large numbers of cells of a human mixed-lineage T-lymphoid/myeloid. 764 87

To get more insight into the phenotypic changes of childhood acute lymphoblastic leukemia (ALL) at relapse, a detailed morphological and immunophenotypic study in 40 childhood ALL cases (32 precursor B-ALL and 8 T-ALL) was performed. Expression patterns of non-lineage specific markers (terminal deoxynucleotidyl transferase (TdT), CD34, and HLA-DR), B-lineage markers (CD10, CD19, CD20, and CD22), T-lineage markers (CD1, CD2, CD3, CD4, CD5, CD7, and CD8), and cross-lineage myeloid markers (CD14, CD15, and CD33) were compared at diagnosis and relapse. In case of low blast counts (< or = 70%) at relapse, double labeling for membrane markers and TdT was used in order to define the precise immunophenotype of the TdT+ leukemic cells. An immunological marker-shift was defined as either a conversion from positive to negative and vice versa or a difference in positivity of > or = 50%. Morphological differences between diagnosis and relapse were detected in 34% of precursor B-ALL and 14% of T-ALL. Differences in immunological marker expression were found in 72% of precursor B-ALL and in 75% of T-ALL, and generally concerned minor shifts with loss or acquisition of a few markers. The morphological shifts and immunophenotypic shifts were not correlated. Immunophenotypic shifts were found for all markers tested in precursor B-ALL, except for HLA-DR. Shifts in CD10 expression (16% of cases) were only observed in relapses occurring 30 months or more after diagnosis. In four precursor B-ALL an intra-lineage shift was found at relapse (one common ALL to null ALL and three pre-B-ALL to common ALL or null ALL) and two precursor B-ALL cases were diagnosed as acute non-lymphocytic leukemia at relapse based on morphology and immunophenotype. In T-ALL, neither intra-lineage nor inter-lineage shifts were observed, although shifts were detected in all T cell markers tested, except for the lineage specific CD3 and T cell receptor (TcR) markers. In conclusion, immunophenotypic shifts at relapse frequently occur in precursor B-ALL and T-ALL, in a small percentage leading to an intra-lineage shift (10%) or inter-lineage shift (5%). Therefore immunophenotypic monitoring of minimal residual disease in ALL patients should be based on multiple marker combinations, preferably together with polymerase chain reaction analysis of rearranged immunoglobulin and/or TcR genes or chromosome aberrations.
Leukemia 1995 Sep
PMID:Immunophenotypic changes between diagnosis and relapse in childhood acute lymphoblastic leukemia. 765 22

Transcripts of alpha-(1,3)-fucosyltransferases in human epithelial cancer and leukemia cell lines were analyzed by Northern blotting and reverse transcriptase mediated-polymerase chain reaction using specific probes and primers which can discriminate between the transcripts derived from the four alpha-(1,3)-fucosyltransferase genes Fuc-TIII, IV, V, and VI. Flow cytometric analysis of the sialyl Le(x) and sialyl Le(a) antigens was also performed on the same cell lines. The sialyl Le(x) antigen was expressed on 14 of 15 epithelial cancer cell lines, and the sialyl Le(a) antigen was detected on 8 of them. The message of Fuc-TIII was detected in most of the epithelial cancer cell lines (14 of 15), which correlated with the surface expression of these carbohydrate determinants. In addition, the messages of Fuc-TIV and Fuc-TVI were detected in most epithelial cancer cell lines, while the message of Fuc-TV was undetectable in most of them. On the other hand, all leukemia cell lines were positively stained for sialyl Le(x), but none of them was stained for sialyl Le(a) in flow cytometry. The messages of Fuc-TIV++ were detected in all leukemia cell lines tested. Small quantities of Fuc-TIII, V, and/or VI messages were also detected in some leukemia cell lines in reverse transcriptase mediated-polymerase chain reaction analysis. These studies indicate that alpha-(1,3)-fucosyltransferase activities in epithelial cancer and leukemia cell lines are mixtures of multiple molecular species of alpha-(1,3)-fucosyltransferases. It is natural that epithelial cancer cells contain a significant amount of Fuc-TIII mRNA and leukemia cell lines contain Fuc-TIV mRNA, since their normal counterparts, normal epithelial cells and leukocytes, respectively, are known to contain these fucosyltransferases. The unexpectedly frequent occurrence of Fuc-TIV mRNA in epithelial cancer cell lines may be related to their retro-differentiation associated with tumorigenesis. Another unexpected finding was a weak but significant expression of the alpha-(1,3)-fucosyltransferases Fuc-TIII, V, and/or VI in leukemia cell lines detected by reverse transcriptase mediated-polymerase chain reaction analysis. Since these enzymes are known to be capable of synthesizing the sialyl Le(x) determinant, this finding implies a possibility that some of them may be involved in the synthesis of sialyl Le(x) in leukemia cells.
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PMID:Expression of alpha-(1,3)-fucosyltransferases which synthesize sialyl Le(x) and sialyl Le(a), the carbohydrate ligands for E- and P-selectins,in human malignant cell lines. 769 44


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