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)

In the present study, seven normal human bone marrow samples from healthy volunteers have been analysed in order to investigate the immunophenotypic characteristics of the normal CD117+ cells and their utility for the detection of minimal residual disease in 71 acute myeloid leukaemia patients. Our results show that most of normal BM CD117+ cells coexpress the HLADR and the myeloid associated CD33 antigen. In addition, almost half of CD117+ cells are CD34+, these cells displaying a different FSC/SSC distribution when compared to the CD117+/CD34- cells. No CD117+/CD15+ and CD117+/CD10+ cells were detected and very few CD117+ cells (< 1 x 10(-3) expressing the HLADR-/CD34-, CD33+/HLADR- and CD34+/HLADR- phenotypes were found to be present in normal BM. In contrast, from the 71 AML patients analysed, 34 had CD117+/CD15+ blast cells and eight had the CD117+ phenotypes detected at low frequencies (< 1 x 10(-3)) in normal BM. In summary, the present study shows that the use of the CD117 antigen in different monoclonal antibodies combinations may be of great help for the detection of minimal residual disease in a high proportion of AML cases, especially in those patients displaying the CD117+/CD15+ phenotype, because cells coexpressing both antigens in normal BM, if present, are at very low frequencies.
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PMID:Immunophenotype of c-kit cells in normal human bone marrow: implications for the detection of minimal residual disease in AML. 753 85

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

The expression of c-kit receptor (c-kit R; CD117) and CD34 was examined in acute myeloid leukemia (AML), acute lymphoid leukemia (ALL), chronic myeloid leukemia (CML) in blastic transformation (BT), and myelofibrosis (MF) in myeloid BT. In myeloid leukemia including AML, CML-myeloid BT and MF-myeloid BT, both c-kit R and CD34 were expressed synchronously, while in lymphoid leukemia including ALL and CML-lymphoid BT, only CD34 was highly expressed. A close correlation between c-kit R and CD33 expression and an inverse correlation between c-kit R and CD19 expression were observed when all of the myeloid plus lymphoid leukemia cells were analysed. There was a close correlation between c-kit R and CD34 expression in the myeloid leukemia cells. c-kit R expression may be associated with myeloid phenotypes of leukemic cells and may be useful for the diagnosis of myeloid leukemia. The literature of c-kit R expression in leukemic cells is reviewed here and the comparison of c-kit R and CD34 expression in normal hematopoietic progenitor cells with those on the leukemic counterparts was discussed.
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PMID:Expression of c-kit receptor (CD117) and CD34 in leukemic cells. 753 10

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.
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PMID:Immunological detection of blast cell subpopulations in acute myeloblastic leukemia at diagnosis: implications for minimal residual disease studies. 759 91

The murine monoclonal antibody YB5.B8 (CD117) identifies a transmembrane tyrosine kinase receptor encoded by the human c-kit proto-oncogene. In this study we investigated the expression of c-kit on different types of acute leukemia to determine the degree of specificity and sensitivity of this marker for the myeloid and lymphoid lineages. C-kit was positive in over half of the 115 cases of acute leukemia studied. Overall, two thirds of AML cases expressed c-kit, whereas only one of 23 ALL patients was c-kit positive. C-kit was also positive in 16 of 19 cases of myeloid blast crisis of myeloproliferative disorders and negative in four with a lymphoid phenotype. There was no correlation between c-kit expression and the degree of myeloid differentiation by FAB subtypes or other markers. We conclude that c-kit is a specific marker for the myeloid lineage, which is expressed early during hematopoietic differentiation and can aid the diagnosis of AML in difficult cases. More patients need to be tested to establish whether the expression of c-kit may define AML subgroups of prognostic significance.
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PMID:C-kit receptor (CD117) expression in acute leukemia. 860 74

CD117 is a transmembrane protein receptor encoded by the c-kit proto-oncogene. The CD117 ligand is stem cell factor, an important hematopoietic regulator. CD117 is present on approximately 4% of normal bone marrow mononuclear cells and in acute myelogenous leukemia (AML) and chronic myelogenous leukemia in myeloid blast crisis, but rarely in acute lymphoblastic leukemia (ALL). Initially viewed as a primitive myeloid marker, CD117 has been identified in all FAB subtypes of AML and may predict poor outcome. CD34, a primitive stem cell marker, may also predict poor outcome. The aim of this study was to examine the relationship between CD117 and CD34 expression on leukemic blasts and to determine whether CD117 is related to lymphoid-associated antigen (LAA) expression in AML. Consecutive bone marrow samples were studied from cases of AML (30 cases), myelodysplastic syndromes (MDS) (4 cases), myeloproliferative disorders in blast crisis (MPD-BC) (6 cases), and ALL (5 cases). Cases were diagnosed according to FAB criteria and included M0 (3 cases), M1 (2 cases), M2 (13 cases), M3 (1 case), M4 (6 cases), M5 (3 cases), M6 (1 case), AML NOS (1 case), RAEB (3 cases), and RAEB-T (1 case). CD117 and CD34 were analyzed by multiparameter flow cytometry. Blasts in 10 de novo AML samples were CD117+/CD34+ in 4 cases, CD117+/CD34-in 3 cases, CD117-/CD34+ in 1 case, and CD117-/ CD34- in 2 cases. Blasts in 20 cases of relapsed AML were CD117+/ CD34+ in 13 cases, CD117+/CD34- in 6 cases, and CD117-/CD34+ in 1 case. Blasts in MDS were CD117+/CD34+ in 3 cases, CD117-/ CD34+ in 1 case. Blasts in MPD-BC were CD117+/CD34+ in 4 cases, CD117-/CD34+ in 2 cases. Blasts in ALL were CD117+/CD34+ in 1 case, CD117-/CD34+ in 1 case, CD117-/CD34- in 3 cases. Of 26 cases of CD117+ AML, CD4 was expressed in 15 (58%) cases, CD7 in 7 (27%) cases, and CD2 in 2 (8%) cases. CD117/CD34 expression did not correlate with FAB subtype of AML. CD117 is borne on most leukemic blasts of myeloid origin (in this study, 87% of AML, 80% of MPD-myeloid BC, and 75% of MDS) and does not exclude expression of LAA. Although CD117 is a receptor for stem cell factor, its expression does not appear to correlate with CD34 positivity.
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PMID:CD117/CD34 expression in leukemic blasts. 871 72

Morphologic, immunologic, cytogenetic, and clinical features were studied in 9 cases of acute undifferentiated leukemia (AUL). These patients were unclassifiable by FAB criteria, they were CD34+ and did not express myeloid- or lymphoid-associated antigens (CD13, CD33, CD14, CD15, CD61, CD19, CD10, CD22, CD7, CD2, CD5, CD3). Clonal abnormalities were seen in 8 of 9 cases. Del(5q) as the sole anomaly was observed in 3 cases; +13 was the primary change in 3 cases, and isolated trisomy 12 was found in 1 patient. A complex karyotype with trisomy 12q, in association with del 17p and trisomy 21q was detected in 1 case. One patient with 5q- relapsed with refractory anemia with excess of blasts; the presence of dysgranulopoiesis and a few blasts with possible monocytoid morphology in the remaining 2 patients point to a "myeloid nature" of these leukemias. Analysis of cytologic features in our 3 patients with +13, in combination with previously reported cases, suggests the occurrence of immature stem cell involvement with limited differentiation potential, possibly more along the myeloid than the lymphoid lineage. The significance of trisomy 12q in this subset of leukemia remains elusive; some clues of minimal differentiation towards the myeloid lineage in our cases are provided by positivity for the CD117 (c-kit) antigen and by relapse with acute myeloid leukemia without maturation (M1) in one patient. We conclude that, with presently available diagnostic techniques, AUL is a rare subset of leukemia, in which cytogenetic changes are confined to a few chromosomes, with prevalent involvement of 5q and of chromosomes 13 and 12. Chromosome findings may be of value in clinical practice, especially in those cases with "myeloid-oriented" karyotype.
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PMID:Cytogenetic and clinicobiological features of acute leukemia with stem cell phenotype: study of nine cases. 895 68

It has been supposed in de novo AML that malignant transformation occurs at the level of committed progenitors. Recent data of our group and others provide evidence that in AML malignant transformation may regularly occur at the level of stem cells. These cells can be discriminated by function and specific surface molecules. CD34, a glycophosphoprotein, is a cellular surface antigen characteristically expressed by stem cells. CD34+ stem cells can be further subdivided by the expression of additional surface molecules like CD38 and CD117. In this article we present results from cytogenetic examinations of FACS-isolated stem cell subpopulations in eight patients (four AML and four MDS). Six of them displayed clonal karyotype abnormalities at the time of first diagnoses in the native bone marrow (5q-; 5q- and complex abnormalities; +8; inv(16) and +8; i(17q) and -21; i(21q)). We used CD117, the receptor for the stem cell factor (also KIT oncogene) as a new cellular surface marker. CD34+/CD117+/- stem cell subpopulations were examined in two patients with AML and three patients with MDS. We found leukemic stem cells in every type of stem cell subpopulation examined (CD34+/CD38-, CD34+/CD38+, CD34+/CD117-, CD34+/CD117+). Secondary, progression-associated chromosome abnormalities likewise were demonstrable in CD34+ cells. In three patients a mosaic of normal and abnormal metaphases was found in the highly purified stem cell subpopulations. We conclude that in AML and MDS stem cells are the target of leukemogenic genetic defects. CD117 as a new marker to isolate different CD34+ subpopulations was not sufficient to discriminate between normal and leukemic stem cells. Our findings have implications for autologous stem cell transplantation, high-dose chemotherapy and the pathogenetic concept of leukemogenesis.
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PMID:Cytogenetic analysis of CD34+ subpopulations in AML and MDS characterized by the expression of CD38 and CD117. 918 Feb 91

This report describes a unique case of acute promyelocytic leukemia (APL) showing elusive morphologic features, an atypical pattern of cytochemical reactions, and a previously unreported immunophenotype consistent with a very early myeloid form: CD13 (+), CD33 (+), CD9 (+), CD2 (+), HLA-DR (-), CD34 (+), CD117 (+), and TdT (+). The diagnosis of AML M3 variant was made only after genotypic analyses revealed the PML/RAR alpha rearrangement associated with the typical (15;17) (q22;q21) translocation. This example of 'asynchronous differentiation' emphasizes the need for a multiparameter approach to the diagnosis of acute leukemia.
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PMID:A microgranular variant of acute promyelocytic leukemia with atypical morpho-cytochemical features and an early myeloid immunophenotype. 927 68

Up till now, clinical data on the possible prognostic influence of multidrug resistance (MDR) in hematological malignancies have been inconsistent, probably due to technical pitfalls. Moreover, in most studies qualitative information on the presence/absence of MDR-1 expression has been used instead of quantitative results. In addition, results usually refer to the total BM population and not specifically to blast cells. In the present study we analyzed the expression of MDR-1 in a series of 50 newly diagnosed de novo AML using a double-staining technique: (a) monoclonal antibodies for the specific identification of blast cells and (b) the rhodamine-123 efflux assay, which allows a quantitative and calibrated measurement of MDR-1 function. Expression of MDR-1 was correlated with clinical, biological, and immunophenotypical disease characteristics. All patients were uniformly treated according to the AML 87/91 protocols of the Spanish Pethema Cooperative Group; the median age was 51 +/- 19 years and the FAB distribution was as follows: 2 M0, 9 M1, 9 M2, 12 M3, 11 M4, 5 M5, and 2 M6 cases. Upon grouping the 50 AML patients analyzed according to the level of rh123 elimination, it was observed that those cases with > or = 30% decrease in rh123 fluorescence displayed higher WBC counts (9 +/- 12 vs 37 +/- 73 x 10(9)/l, p = 0.02) and platelet numbers (94 +/- 11 vs 35 +/- 25 x 10(9)/l, p = 0.02), together with a higher incidence of extramedullary involvement (35% vs 24%, p = 0.02). Half of the patients (47%) displaying a low rh123 elimination (< 30%) showed M3 morphology, while among the 33 patients with a higher rate of rh123 elimination (> or = 30%), only four (12%) corresponded to the M3 morphological subtype (p = 0.0006). From the immunophenotypic point of view, a low rate of rh123 elimination was associated with a lower expression of HLADR antigen (p = 0.003) and a higher expression of CD117 (p = 0.01). Regarding the possible prognostic influence of MDR1 expression, we found that a high rate of rh123 elimination (> 30%) was associated with a tendency towards poor disease outcome, illustrated by both a lower complete remission rate with the first cycle of chemotherapy (36% vs 56%) and a lower median disease-free survival (22 months vs median DFS not reached), although differences did not reach statistical significance (p = 0.1 in both comparisons). This data shows that although MDR-1 can be a relevant parameter in the evaluation of AML patients, larger series of patients using appropriate techniques for specifically analyzing the MDR of blast cells will be necessary in order to establish the final clinical value of this parameter.
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PMID:Functional expression of MDR-1 in acute myeloid leukemia: correlation with the clinical-biological, immunophenotypical, and prognostic disease characteristics. 936 75

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