Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0023467 (acute myeloid leukemia)
 35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the present study, the expression of two NK-associated antigens (CD56 and CD16) together with six 'classically' considered lymphoid-related markers (TDT,CD19,CD10,CD7,CD2,CD4) has been analyzed by appropriate dual combinations in 265 acute myelogenous leukemia (AML) patients. Among the lymphoid markers, CD4 and CD7 were those most frequently expressed by AML blast cells (58% and 21.6%, respectively) while the incidence of positivity for the other markers was lower: CD19 (7.8%), CD10 (10.9%), CD2 (11.4%), and TDT (11.3%). Regarding NK-associated antigens, CD56 was present in 41% of AML cases analyzed whereas CD16 was detected in only 23%. All but one of the CD16+ cases coexpressed the CD56 antigen. The expression of these antigens was not associated with the degree of cell differentiation assessed either by morphological or immunophenotypical criteria, with the exception of the correlation observed between monocytic leukaemias and the expression of the CD4, CD56, and CD16 antigens. Regarding the prognostic value of the markers investigated, CD56 expression was associated with a tendency for a better outcome whereas CD7 was the only antigen that had an adverse influence on the survival of AML patients.
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PMID:Expression of NK and lymphoid-associated antigens in blast cells of acute myeloblastic leukemia. 750 72

Antigenic profiles in AML that have generally accepted prognostic significance, and allow treatment stratification, have not yet been defined. In a previous report of Ashman et al., the proto-oncogene c-kit defined by binding of the moab YB5.B8 was expressed on about one third of AML cases, mainly of the undifferentiated FAB-subtypes and associated with poor prognosis and overall survival. In this study, the moab 17F11 also directed against the c-kit structure stained 41/47 AML and 6/8 CML blast specimens, whereas all investigated 40 ALL samples were c-kit negative. c-kit was not restricted to any particular, undifferentiated FAB-subtype, but found in 9/9 AML-M0/M1, 18/19 AML-M2, 0/1 AML-M3, 11/13 AML-M4 and 3/5 AML-M5 subtypes. Immunophenotypical analysis showed no restriction of c-kit expression to immature, CD34+ precursors, but c-kit was also expressed on CD4+ CD34- precursor cells differentiating towards the monocyte lineage. In addition, multi-color labelings revealed an extraordinary heterogeneity of concomitant antigen expression on c-kit+ cells 10/36 c-kit+ CD34+ samples expressing CD56 and 16/36 c-kit+ CD34+ samples being CD7 positive; two c-kit+ CD34+ specimens carried the B-cell antigen CD19. In correlation to clinical outcome c-kit expression as single parameter was not predictive for poor response to therapy and short survival as previously suggested.
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PMID:AML: immunophenotypic heterogeneity and prognostic significance of c-kit expression. 750 33

This study reports on a patient with acute myelogenous leukemia (AML) in remission who had a series of 11 granulocytic sarcomas (chloromas or myeloblastomas) appearing periodically over a 29-month interval in a variety of anatomic sites without evidence of bone marrow recurrence. This isolated extramedullary recurrence of AML is distinctly unusual with only 24 cases described previously. This patient had the greatest number and longest reported interval of recurrent granulocytic sarcomas (GS) before bone marrow relapse. Furthermore, he represents the first case of a patient with GS presenting with both an 8;21 chromosomal translocation and neural cell adhesion molecule (CD56) expression. The authors hypothesize that these two abnormalities identified previously as predisposing factors to GS may, in fact, be synergistic for this phenomenon. His case and the review of the literature demonstrate some of the important clinical and management features of a patient who develops GS while in complete marrow remission from previous AML. Although highly sensitive to radiation therapy, the onset of granulocytic sarcomas is almost always followed by bone marrow relapse and should be treated with aggressive reinduction chemotherapy and local irradiation. Such therapy is associated with the longest interval of disease-free survival.
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PMID:Recurrent granulocytic sarcoma. An unusual variation of acute myelogenous leukemia associated with 8;21 chromosomal translocation and blast expression of the neural cell adhesion molecule. 751 42

The mechanisms of extramedullary leukemic infiltration are not well characterized. The cell-surface glycoprotein CD56, which is identical to the neural cell adhesion molecule, may be involved. Using the Leu-19 antibody and flow cytometric methods, the leukemic blasts of 22% (70 of 314) of patients were CD56 positive. This was most common in acute monocytic leukemia (15 of 18, 83%) and in patients with the cytogenetic abnormalities t(8;21) (seven of 13, 54%) and trisomy 8 (nine of 22, 41%). CD56 expression was not associated with extramedullary leukemic infiltration, but was correlated with positivity for CD11b (p < 0.001), CD14 (p < 0.001) and CD19 (p = 0.018). Although associated with morphologic and cytogenetic features, CD56 expression alone cannot account for most instances of tissue infiltration in acute myeloid leukemia (AML).
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PMID:Investigation of karyotypic, morphologic and clinical features in patients with acute myeloid leukemia blast cells expressing the neural cell adhesion molecule (CD56). 751 47

We have identified and characterized a previously unrecognized form of acute leukemia that shares features of both myeloid and natural killer (NK) cells. From a consecutive series of 350 cases of adult de novo acute myeloid leukemia (AML), we identified 20 cases (6%) with a unique immunophenotype: CD33+, CD56+, CD11a+, CD13lo, CD15lo, CD34+/-, HLA-DR-, CD16-. Multicolor flow cytometric assays confirmed the coexpression of myeloid (CD33, CD13, CD15) and NK cell-associated (CD56) antigens in each case, whereas reverse transcription polymerase chain reaction (RT-PCR) assays confirmed the identity of CD56 (neural cell adhesion molecule) in leukemic blasts. Although two cases expressed CD4, no case expressed CD2, CD3, or CD8 and no case showed clonal rearrangement of genes encoding the T-cell receptor (TCR beta, gamma, delta). Leukemic blasts in the majority of cases shared unique morphologic features (deeply invaginated nuclear membranes, scant cytoplasm with fine azurophilic granularity, and finely granular Sudan black B and myeloperoxidase cytochemical reactivity) that were remarkably similar to those of acute promyelocytic leukemia (APL); particularly the microgranular variant (FAB AML-M3v). However, all 20 cases lacked the t(15;17) and 17 cases tested lacked the promyelocytic/retinoic acid receptor alpha (RAR alpha) fusion transcript in RT-PCR assays; 12 cases had 46,XX or 46,XY karyotypes, whereas 2 cases had abnormalities of chromosome 17q: 1 with del(17)(q25) and the other with t(11;17)(q23;q21) and the promyelocytic leukemia zinc finger/RAR alpha fusion transcript. All cases tested (6/20), including the case with t(11;17), failed to differentiate in vitro in response to all-trans retinoic acid (ATRA), suggesting that these cases may account for some APLs that have not shown a clinical response to ATRA. Four of 6 cases tested showed functional NK cell-mediated cytotoxicity, suggesting a relationship between these unique CD33+, CD56+, CD16- acute leukemias and normal CD56+, CD16- NK precursor cells. Using a combination of panning and multiparameter flow cytometric sorting, we identified a normal CD56+, CD33+, CD16- counterpart cell at a frequency of 1% to 2% in the peripheral blood of healthy individuals. Our studies suggest that this form of acute leukemia may arise from transformation of a precursor cell common to both the myeloid and NK cell lineages; thus we propose the designation myeloid/NK acute leukemia. Recognition of this new leukemic entity will be important in distinguishing these ATRA-nonresponsive cases from ATRA-responsive true APL.
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PMID:HLA-DR-, CD33+, CD56+, CD16- myeloid/natural killer cell acute leukemia: a previously unrecognized form of acute leukemia potentially misdiagnosed as French-American-British acute myeloid leukemia-M3. 752 45

The expression of the vascular cell adhesion molecule (VCAM-1), recently identified as cytokine-inducible ligand of the beta 1-integrin VLA-4, was investigated on normal and malignant haemopoietic precursors as well as on haemopoietic cell lines. VCAM-1 was demonstrated on > 20% blasts in 4/22 acute myeloid leukaemia (AML) and 6/10 acute lymphoblastic leukaemia (ALL) specimens but was absent from CD34+ normal bone marrow precursor cells. Interestingly, the VCAM-1+ AMLs classified as M1 and M5 simultaneously expressed N-CAM (CD56), a member of the immunoglobulin family. In ALL, VCAM-1 expression was restricted to Calla+ CD19+ precursors of the c-ALL subtype. VCAM-1 was also found on some cell lines, mainly of the B-lymphocytic type. Furthermore, in 13/20 chronic lymphocytic leukaemia (CLL) samples > 20% of the CD19+ B-lymphocytic precursors carried VCAM-1, which seemed to correlate with more advanced disease. Therefore VCAM-1 expression appeared to characterize leukaemic cells of the B-cell lineage as well as a CD56+ subset of AML. Since its expression was clinically correlated with dermal infiltrates of leukaemic cells in AML and with advanced Rai stages in CLL, VCAM-1 may play a role in enhanced adhesion of the malignant cells to tissues and/or to each other.
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PMID:The vascular cell adhesion molecule (VCAM-1) is expressed on a subset of lymphoid and myeloid leukaemias. 753 84

The molecules detected by CD34 and CD56 monoclonal antibodies are simultaneously expressed in approximately 20% of childhood acute myeloid leukemia (AML) cases, and this phenotype is associated with t(8;21)(q22;q22) karyotype. By contrast, bone marrow samples from normal donors (n = 5) and patients with CD56- malignancies in remission (n = 8) contained fewer than 1 in 10,000 CD34+/CD56+ cells. CD34+/CD56+ cells were readily identified when leukemic blasts were admixed with normal bone marrow cells at a 1:10(4) ratio. Cells expressing both markers (0.01-0.8% of mononuclear cells) were also found in bone marrow samples from two of three children with CD34+/CD56+ AML studied, who were in remission by morphologic criteria. In one of these patients, detection of residual disease by flow cytometry anticipated overt hematologic relapse. A second patient, in whom minimal residual disease was detected prior to and following autografting, died of unrelated causes while in morphologic remission. The third patient had no detectable residual disease prior to and following autografting, and is still in morphologic and immunologic remission 100+ days post-transplant. The expression of CD56 on CD34+ cells is leukemia-associated and offers a means of identifying extremely small numbers of these cells by flow cytometry. This sensitive approach can now be used to assess the efficacy of treatment and detect early relapse in patients with CD34+/CD56+ AML.
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PMID:N-CAM (CD56) expression by CD34+ malignant myeloblasts has implications for minimal residual disease detection in acute myeloid leukemia. 768 98

Natural killer (NK) and T subsets were analyzed with appropriate dual labeling by flow cytometry in peripheral blood (PB) (66 cases) and bone marrow (BM) (55 cases) from patients with de novo AML in order to determine: (a) their distribution at diagnosis, (b) the correlation between PB and BM in NK subpopulations, (c) their relationship with the clinical and hematological disease characteristics, and (d) the changes occurring upon achieving complete remission (CR). NK cells defined by the expression of CD56 in the absence of CD3 were significantly increased at diagnosis and their levels in PB correlated with those of BM. By contrast, NK subsets defined by CD16 expression (CD16+ CD2+ and CD16+ CD2- NK-cell subsets) as well as T lymphocytes with NK activity (CD56+ CD3+), although increased in PB, displayed normal levels in BM. An additional observation of interest was the expansion of an immature NK population lacking CD16 Ag expression (CD56+ CD16-). AML cases were divided into two groups according to the absolute number of NK cells in PB; patients with the highest levels showed an increased proportion of blast cells in PB (p = 0.01), monocytic subtypes (p = 0.03), and expression of CD11b, CD14, and CD4 antigens (p = 0.05). Infections at diagnosis were not related to the level of NK cells. In 19 patients who achieved complete remission the number of CD56+ CD3- cells tended to be reduced to within the normal range. Other T-cell populations, including the CD4 naive and memory cells, were also explored, their distribution being normal in the PB of AML patients. By contrast, the cytotoxic subset CD8+/CD57+ was significantly increased (p < 0.001). These data point to the existence of marked alterations of NK cells in AML patients, possibly reflecting a host-tumor immunological interaction.
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PMID:Lymphoid subsets in acute myeloid leukemias: increased number of cells with NK phenotype and normal T-cell distribution. 769 63

The activation of autologous cytotoxic cells by interleukin-2 (IL-2) may be a promising tool for elimination of minimal residual blast populations in patients with acute myelocytic leukemia (AML) to prolong disease-free survival. Here, we report the results of a phase II study using IL-2 for consolidation therapy in patients with second remission of de novo AML. All patients in 1st relapse of AML received a uniform induction therapy consisting of intermediate high-dose AraC (iHDAraC) 2 x 600 mg/m2 d1-4 and VP-16 100 mg/m2 d1-7. Patients achieving 2nd remission were treated with 4 cycles recombinant IL-2 (rIL-2) 9 x 10(6) IU/m2 administered on d1-5 and 8-12/cycle as 1h infusion every six weeks. In 37/66 (56%) evaluable patients, complete remission (CR) was achieved. So far, 21/37 patients (4 after additional autologous bone marrow transplantation (ABMT) received rIL-2 consolidation. Three patients are too early for evaluation, 4 received allogeneic BMT, 6 relapsed before IL-2 was scheduled and 4 refused treatment with rIL-2. The median disease-free survival (DFS) was 11 (4-49+) months. Up to now, in 5/21 (24%) patients the duration of 2nd remission exceeded that of 1st remission 7/21 (33%) are in ongoing 2nd remission (7+ to 49+ months). The side effects of rIL-2 were generally moderate and manageable. Only in two patients, previously treated with ABMT, severe side effects occurred; septicaemia and pneumonia in one patient and desquamative erythrodermia in the second one. In accordance with other studies rebound lymphocytosis with a marked increase of CD56(+)-cells and release of secondary cytokines such as TNF-alpha, IFN-gamma and IL-6 was observed. The schedule is feasible and the data suggest a possible benefit for DFS, which, however has to be confirmed by randomized trials.
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PMID:Interleukin-2 bolus infusion as late consolidation therapy in 2nd remission of acute myeloblastic leukemia. 771 35

The eradication of minimal residual blast populations by activation of autologous cytotoxic cells with interleukin 2 (IL-2) is a new promising tool in the treatment of acute myelocytic leukemia (AML). However, the immunological effector cells are not yet clearly defined. The present study was designed to investigate the presence of cytotoxic precursor cells in active AML and to identify phenotypical and functional characteristics of autologous anti-leukemic cytotoxic effector cells. For this purpose, mononuclear cells (MNC) containing at least 70% leukemic blasts were isolated from bone marrow of untreated AML and cultured in the presence of 3000 IU/ml recombinant IL-2 (rIL-2) for 6-8 weeks. Under these conditions, T-cells were selected in the bone marrow cultures and overgrew the leukemic blasts. The resulting T-cell populations were cloned by limiting dilution and the clones obtained were characterized for their phenotypical and functional patterns. Totally, cloning resulted in 68 clones and a few cell lines. The clonality was verified by RT PCR analysis of TCR V beta gene expression. All clones obtained stained positive for CD2, CD3, DR and CD56. The vast majority (68%) of T-cell clones/lines was CD4+, a few clones expressed CD8 (19%) or CD4 and CD8, and four clones were of TCR gamma delta origin. Seven of 15 clones tested, including three CD4+, two CD8+ and two TCR gamma delta(+)-clones were found to be cytotoxic against autologous leukemic blast cells. All except one clone expressed oncolytic activities against allogeneic blasts too. One of the TCR gamma delta(+)-clones demonstrated NK activity by lysis of K562 targets. The majority of the T-cell-clones released IL-2, IL-8, TNF-alpha, GM-CSF but only a few IFN gamma and expressed high levels of mRNA for IL-2, TGF-beta and IL-10. None of the clones was found to produce IL-3, IL-4, IL-7 and TNF-beta. The data provide evidence of the existence of T-cell precursors in untreated AML bone marrow differentiating to cytotoxic cells with activity against autologous and allogeneic AML blast cells.
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PMID:Bone marrow-derived T-cell clones obtained from untreated acute myelocytic leukemia exhibit blast directed autologous cytotoxicity. 786 44


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