UMLS:C0023467 - FACTA Search

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

The expression and function of neural cell adhesion molecule (NCAM, CD56, Leu19) on leukaemic blasts was investigated. The expression of NCAM was frequent (64%) in 14 studied cases of acute myeloid leukaemia (AML) but not in chronic lymphocytic leukaemia (CLL: 1/3 cases positive) or immunocytoma (IC: no positivity). No correlation with the expression of other AM (intercellular adhesion molecule-1 (ICAM-1), leucocyte function antigen-1 (LFA-1). VLA beta chain) or with AML type, according to FAB classification, was observed. Blocking of NCAM with anti-Leu 19 MoAb on AML targets resulted in a significant decrease of their susceptibility to LAK killing and in inhibition of conjugate formation. In the case of B prolymphocytic leukaemia (B-PLL) which did not express ICAM-1 or LFA-1 but was NCAM+, a complete resistance to LAK activity and lack of conjugate formation was observed. Blocking of NCAM on LAK effectors did not decrease their cytotoxic activity. Our results suggest that NCAM, in the presence of other AM, may have a supportive role in adhesion of leukaemic targets to LAK effectors.
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PMID:A supportive role of neural cell adhesion molecule (NCAM) in adhesion between leukaemic blasts and cytotoxic lymphocytes. 137

The cell surface markers on the leukemic cells of 76 patients with adult acute myeloid leukemia (AML) have been analyzed by indirect immunofluorescence, and the presence of CD56+ leukemic cells was detected in ten of these patients. Four of these 10 CD56+ AML patients developed extramedullary myeloblastomas and in two of them an intracranial myeloblastoma. In contrast, in the remaining 66 CD56- AML patients, only one patient developed a myeloblastoma formation of the subcutaneous. It may be that the CD56 antigen which is an isoform of the neural cell adhesion molecule (NCAM), expressed on neurons, satellite cells of skeletal muscle cells, and on stromal cells, binds these tissues by a homophilic mechanism. CD56+ leukemic cells are capable of invading and of surviving in extramedullary tissues, where they proliferate and develop into a myeloblastoma. Because of this possibility, CD56+ AML patients should be carefully monitored for signs of myeloblastoma formation.
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PMID:Myeloblastoma formation in acute myeloid leukemia. 137 18

We have shown that interleukin-2 (IL-2) -activated adherent lymphocytes (A-LAK) display superior oncolytic activity against acute myelogenous leukemia (AML) blasts when compared to conventionally prepared lymphocytes with lymphokine-activated killing (LAK) activity. The A-LAK activity was generated promptly and from donors whose lymphocytes did not display any LAK activity. In comparison to LAK, a higher percentage of A-LAK expressed the CD25 and HLA class II (HLA-DR) activation-associated structures and high density of HLA class I antigens. Most striking, however, was the observation that lymphocytes from A-LAK cultures consistently contained a high density of CD2, CD11a, and CD18 adhesion molecules, as indicated cytometrically by their "bright" fluorescence intensity. Three color flow cytometric analysis indicated that virtually all CD56+,CD3- natural killer (NK) and CD56+,CD3+ T cells in unstimulated, LAK and A-LAK populations displayed this "bright" phenotype, while most CD56-,CD3+ T cells (with the exception of the small proportion found in A-LAK) were of the "dim" phenotype. The A-LAK cultures also contained a higher percentage of lymphocytes expressing CD11b (CR3 receptor) and CD54 (ICAM-1) antigens. The CD11a, CD18, and partially CD2 molecules were important in the A-LAK cytolytic mechanism against AML, since blocking of these structures with monoclonal antibodies (MAb) significantly decreased the antileukemia effect. Additionally, the ability of A-LAK to adhere to plastic was most strongly inhibited by anti-CD11a MAb and less, but significantly, by MAb against CD2, CD18, and CD56 molecules.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adhesion molecules on MHC-nonrestricted lymphocytes: high density expression and role in oncolysis. 139 Dec 34

Thirty cases of newly diagnosed pediatric acute myeloblastic leukemia (AML) with French-American-British (FAB) M2 morphology were analyzed with cytogenetics and a comprehensive panel of monoclonal antibodies reactive with lymphoid-, natural killer (NK)-cell-, and myeloid-associated antigens. The t(8;21)(q22;q22), or t(8;21;V)(q22;q22;V), translocation was identified in 16 of the 30 cases. Cases with the t(8;21) did not differ significantly from the remaining M2 cases with respect to expression of CD11b, CD13, CD14, CD15, CD33, CD34, CD36, CD41a, CD42b, CDw65, TdT, or HLA-DR. Expression of the B-cell antigen CD19 was detected in 13 of the 16 t(8;21) cases (81%), but in only 1 of the 14 (7%) other M2 cases (P = .00006). Expression of the CD56 NK-cell antigen was also significantly more frequent among t(8;21) cases (63% v 14%; P = .01). Coexpression of CD19 and CD56 was found only in the t(8;21) group (9 of 16 cases, P = .0009). Furthermore, this phenotype was not found in 48 evaluable cases of de novo AML of the FAB M1, M3, M4, M5, or M7 subtypes. The 14 M2 AML cases lacking the t(8;21) commonly expressed CD2 (n = 5) or CD7 (n = 8). However, no case with the t(8;21) expressed either antigen (P = .01 and .0005, respectively). Thus, the t(8;21) biologic subgroup of pediatric M2 AML has distinct immunophenotypic characteristics that distinguish it from other types of de novo AML.
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PMID:Distinctive immunophenotypic features of t(8;21)(q22;q22) acute myeloblastic leukemia in children. 846 84

Human long-term bone marrow cultures (HLTBMCs) were established with bone marrow samples collected from 15 patients with acute myeloid leukemia (AML) and compared with HLTBMCs from eight healthy volunteers. During 6 weeks of culture, the cellular composition of HLTBMCs was quantitatively studied. The cells of the HLTBMCs were divided into three main categories: fibroblasts, macrophages, and 'other cells' (endothelial cells, hematopoietic cells and undefined cells). HLTBMCs derived from healthy volunteers demonstrated a very consistent development. The number of fibroblasts increased during culture and the number of macrophages decreased, resulting in a steady state after 3 weeks of culture. In contrast, HLTBMCs derived from patients with AML showed a strikingly different pattern of irregular development and a steady state was not reached under our conditions. The APAAP technique was used to demonstrate expression of adhesion molecules. VLA2, VLA5, VLA6, LFA1, Mac1, p150/95, beta 2-chain, HCAM, ICAM1, NCAM, and VCAM1 were more expressed on 'normal' as compared with 'leukemic' bone marrow stromal cells, although this reached significance only for beta 2-chain and NCAM. VLA1, 3, and 4 were expressed in a higher percentage on 'leukemic' stroma (not significant). More expression was seen on 'normal' as opposed to 'leukemic' macrophages for the adhesion molecules tested, except for VLA5. The differences reached significance for the majority of molecules tested. It is concluded that striking differences exist in cellular composition and adhesion molecule expression between HLTBMCs from healthy individuals and those from patients with AML. This may have an impact on the pathogenesis of AML.
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PMID:Differences of cellular composition and adhesion molecule expression in "leukemic" as compared with "normal" human long-term bone marrow cultures. 162 55

Acute myeloid leukaemia (AML) cells have a variable capacity to egress from bone marrow into peripheral blood. This may be due to a variable lack of adhesion molecules on leukaemic cells. The expression of VLA1, 3, 4, 5, 6, beta 1-chain, LFA1, beta 2-chain, ICAM1 and NCAM appeared to be higher in bone marrow as compared to peripheral blood leukaemic cells, although this only reached significance for beta 1-chain (p less than 0.01). The number of cases with more than 20% positive cells in bone marrow leukaemic cells was lower in immature FAB-subtypes (M1, M5a) as opposed to more mature subtypes (M2, M3, M4, M5b) for the adhesion molecules tested. This reached significance for VLA5 (p less than 0.05) and beta 1-chain (p less than 0.007), while there was trend for VLA4. It is discussed that VLA4 and 5 may play a role in the release of leukaemic cells from the bone marrow.
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PMID:VLA molecule expression may be involved in the release of acute myeloid leukaemic cells from the bone marrow. 162 72

The expression of adhesion molecules on blasts from 14 patients with acute myeloid leukemia (AML) was investigated by immunofluorescence and flow cytofluorometry. All tested blast populations expressed CD18/CD11a complex [leukocyte function antigen-1 (LFA-1)] and CD29 (very-late antigen (VLA)) and the majority were positive for CD54 [intercellular adhesion molecule-1 (ICAM-1), 78.6%] and CD56 [neural cell adhesion molecule (NCAM), 64.3%]. The expression of two other alpha chains of CD18/CD11b and CD11c varied considerably (64.3% and 42.8% of positive cases, respectively). Only one case (AML-M4) showed a weak expression of the activated platelet antigen CD41b. None of the tested blasts expressed the vitronectin receptor (CD61/CD51). No significant correlation between the expression of adhesion molecules and the FAB type of leukemia could be found. All tested blast populations were completely resistant to NK-mediated cytotoxicity and relatively resistant to LAK-mediated cytotoxicity in the standard 51Cr release assay. While no statistically significant correlation of the results in cytotoxicity assays with the expression of adhesion molecules or the expression of HLA-DR antigen could be observed, 2 out of 3 completely resistant cases lacked ICAM-1. These results show that even leukemic blasts which express all of the tested adhesion molecules can still be resistant to LAK-mediated cytotoxicity.
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PMID:Resistance of leukemic blasts to lymphokine activated killer (LAK)-mediated cytotoxicity is not related to their adhesion properties. 171 15

CD56 antigen (detected by NKH-1) is distributed on NK cells, monocytes, and ectodermal neural cells. In this study, the blasts of 29.2% of 27 patients with acute nonlymphocytic leukemia (ANLL) expressed CD56 antigen, but not CD16, CD2, or CD3 antigen. Leukemic cells isolated from 3 patients with CD56-positive ANLL did not have NK activity. There were no significant differences between CD56-positive and CD56-negative ANLL in CD13-positive cases, CD33-positive cases, and HLA-DR-positive cases. These results suggest that CD56-positive ANLL could be so-called mixed-lineage leukemia (lymphoid-associated antigen in ANLL).
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PMID:[Expression of CD56 antigen on acute nonlymphocytic leukemia]. 172 34

We analyzed the cytotoxicity and characterized the phenotype of oncolytic bone marrow (BM) lymphocyte subsets generated in vitro by interleukin-2 (IL-2) and stimulator cells (SC). Two irradiated B-lymphoblastoid cell lines (Daudi and EBV-transformed BSM) and fresh human acute myelogenous leukemia (AML) were used as SC. Stimulation with Daudi and IL-2 resulted in a substantial increase in cytotoxic activity (100- to 1000-fold) against a broad range of tumor targets, and total cellular expansion was higher compared to stimulation with IL-2 alone. The most prominent increase was observed in the CD16+ and CD56+/CD3- natural killer (NK) cell subset; however, a significant increase was also observed in CD56+/CD3+ T cells. Functional analysis of Daudi- and IL-2-generated subsets using fluorescence-activated cell sorting (FACS) revealed that most of the lytic activity was mediated by NK cells. Significant potentiation of oncolytic activity and cell growth was also seen in the cultures stimulated with BSM or fresh AML and IL-2. The highest oncolytic activity in the latter cultures was mediated primarily by CD8+, CD3+, and CD56- T cells, although NK cells also participated in cytotoxic activity. The T cell-mediated cytotoxicity was restricted by the major histocompatibility complex (MHC), since most cytotoxicity could be blocked by HLA I antibodies. Additionally, we observed that optimum stimulation of cytotoxicity required effector cell-stimulator cell contact. These data indicate that depending on the tumor used for stimulation, different lymphocyte subsets may be generated in IL-2 cultures. These different approaches may be useful in both specific and nonspecific immunotherapy.
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PMID:Generation of MHC-nonrestricted and restricted oncolytic subsets from human bone marrow. 172 69

In the past, studies on CD34+ cells have been based on the use of monoclonal antibodies conjugated with different fluorochromes that show different fluorescence intensity and yield variable results. Moreover, most of these studies have neither specifically focused on adult human BM samples nor have they used combinations to explore specifically the phenotype of myeloid committed CD34+ cells. The aim of the present study has been to characterize the normal human CD34+ precursor cells from adult BM in order to identify missing or extremely rare phenotypes that can be used for detecting minimal residual disease (MRD) in patients with AML. For this purpose we have utilized the fluorochrome conjugates that provide the most sensitive signals for identifying low antigenic expression, and the technique has been adapted to the characterization of cells present at very low frequencies. Normal human BM samples from 13 adult healthy volunteers have been analyzed using triple stainings at flow cytometry. The mean percentage of CD34+ cells detected was 0.72 +/- 0.33%; these cells displayed an heterogeneous light-scatter distribution. Most CD34+ cells coexpressed CD38 (96.7 +/- 5.7%), HLADR (81.6 +/- 14.0%), CD33 (84.7 +/- 18.3%), CD13 (84.6 +/- 16.2%) and CD71 antigens (65.5 +/- 9.1%). In addition, almost half of CD34+ cells were CD117+ (60 +/- 26.8%). Only a small proportion of CD34+ cells coexpressed CD4 (15.5 +/- 11.7%, CD36 (31.7 +/- 6.2%), CD61 (16.3 +/- 12.9%), CD41 (6.5 +/- 5.5%) or the lymphoid associated markers CD10 (18.6 +/- 11.8%) and CD19 (12.3 +/- 13.2%). Reactivity for the CD15 antigen was observed in a small population of CD34+HLADR+ cells (11.6 +/- 11.2%) although its intensity of expression was lower than that of the more mature granulocytic cells. No CD34+ cells displayed CD14, CD65, CD20, strong CD22, CD3 and CD56 antigens. Accordingly, most adult bone marrow CD34+ cells appeared to be committed to the myeloid lineage (CD13+/CD33+) and displayed an intermediate-to-large FSC/SSC while the lymphoid-committed CD34+ cells (CD19+, CD10+) were in a minority with low FSC/SSC values. By triple marker stainings several phenotypes of CD34+ precursor cells were found to be either undetectable or present at very low frequencies (< 1 x 10(-3)) in the normal human adult bone marrow. These data may be of great value for defining leukemia 'associated' phenotypes used to detect minimal residual disease in adult acute leukemia patients.
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PMID:Phenotypic analysis of CD34 subpopulations in normal human bone marrow and its application for the detection of minimal residual disease. 747 81

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