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)

Serial blood and marrow specimens from eight adult recipients of sex-mismatched transplants (BMT) for chronic myeloid leukemia (CML, n = 3), Ewing sarcoma (n = 1), acute myeloid leukemia (AML) in second remission (n = 1), acute lymphatic leukemia (ALL, n = 1) and multiple myeloma (n = 2) were analyzed by the simultaneous immunophenotypic CD3, CD4, CD8, CD20, CD34, CD10 and genotypic analysis (for X and Y chromosomes). This combined technique of moAb/APAAP staining for cell surface and cytoplasmic antigens and fluorescence in situ hybridization (FISH) for the detection of sex chromosomes allowed the qualitative and quantitative evaluation of mixed chimerism and/or relapse. Using the same slides for moAb/APAAP and FISH allowed the simultaneous identification of the cell lineage, the lymphocyte subpopulation and the genotype (XX or YX) in every blood or BM specimen analyzed. A mixed chimerism in the T cell (CD4, CD8+: median 26% host cells, range 5-44%) and in the myelomonocytic cell population (CD14+ median 16% host cells, range 5-50%) was observed at day +7 after BMT. By days +14 to +18 this mixed chimerism was reduced to 18% host T cells (range 5-50%) and 7% host myelomonocytic cells (range 0-20%). Beyond days +21 to +28 a stable donor chimerism for T cells, myelomonocytic cells and granulocytes was observed in seven of eight patients. Still 0.5-1% host cells of different lineages were detectable in five from the eight patients at later time points (> day + 100). In three patients with CML these cells were CD13 or CD13, CD34 positive and in one was CD4, CD8 positive.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Detection of mixed chimerism and leukemic relapse after allogeneic bone marrow transplantation in subpopulations of leucocytes by fluorescent in situ hybridization in combination with the simultaneous immunophenotypic analysis of interphase cells. 774 54

The existence of leukemic-associated phenotypes has been suggested to be a valuable tool for the detection of minimal residual disease (MRD) in AML patients, as they would allow to distinguish leukemic blast cells from normal hematopoietic progenitors. The present study was designed to analyze in which proportion of AML patients the immunological detection of MRD is feasible, based on the presence of aberrant phenotypes that allow the distinction of leukemic from normal cells. For this purpose we have prospectively investigated the blast cells from 40 AML patients at diagnosis with a large panel of MoAb in double and triple staining combinations analyzed at flow cytometry, in order to detect aberrant phenotypes on blast cells (lineage infidelity, antigenic overexpression, and asynchronous antigenic expression, as well as aberrant light-scatter pattern). In the analysis of the 40 AML cases more than one blast cell subset, distinguished by its different antigenic expression, was detected in 85% of the patients: five different phenotypic blast cell subsets were observed in six cases, four in 13 patients, three subsets in three cases, and two in 12 patients; only six cases showed a homogeneous phenotypical blast cell population. Twenty-nine of the 40 AML cases analyzed (73%) showed the existence of at least one aberrant phenotype: in 15 cases the myeloid blast cells co-expressed lymphoid-associated antigens (CD2, CD5, CD7, and/or CD19)--lineage infidelity--; asynchronous antigen expression was detected in 25 patients (CD34+CD56+, CD34+CD11b+, CD34+CD14+, CD117+CD15+, CD33-CD13+, CD13-CD15+, HLADR + CD15 , HLADR-CD14+CD11b+ CD4+); seven cases displayed antigen overexpression (CD13, CD33, CD15, or CD14); and in 13 patients leukemic cells had an abnormal FSC/SSC distribution according to their phenotype. These results suggest that immunological methods for the detection of MRD based on the existence of aberrant phenotypes could be used in the majority of AML patients.
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PMID:Characterization of aberrant phenotypes in acute myeloblastic leukemia. 774 63

The clinicopathological features and the prognostic significance of acute myeloid leukaemia (AML) with trisomy 11 are currently unknown. In this study we describe 15 adult AML cases with trisomy 11. Trisomy 11 was the sole chromosomal anomaly in eight cases; the remaining seven cases were characterized by +11 in association with other karyotypic aberrations. Patients ages ranged from 34 to 79 years. 12 patients were male; three were female. Although there was no correlation of trisomy 11 with any specific FAB subgroup [M2 (n = 7), M1 (n = 5), M4/5 (n = 2), M3 (n = 1)] less mature forms predominated. Immunologically, the leukaemic blasts showed a strikingly consistent stem cell phenotype with expression of HLA-DR, CD34 and the myeloid antigens (CD15, CD33 and/or CD13). In addition, two cases expressed the B-cell associated antigen CD19. The presence of trilineage dysplasia, suggesting the presence of an underlying myelodysplasia (MDS), was observed at presentation in five cases; in another case MDS was evident at relapse only. Unexpectedly, MLL gene rearrangements were observed in two of four cases characterized by trisomy 11 as the sole karyotypic abnormality; however, MLL aberrations were not identified in three cases with trisomy 11 accompanied by other karyotypic anomalies. The majority of patients in each subgroup (i.e. those with and without additional cytogenetic abnormalities) achieved a short first complete remission (CR) (mean 8 months) and failed to obtain a second CR. Only one patient in each trisomy 11 subgroup is in a continuous CR for > 34 months. These findings suggest that trisomy 11 leukaemia is characterized by a stem/progenitor cell immunophenotype with poor response to standard chemotherapeutic regimens and an unfavourable prognosis.
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PMID:Trisomy 11: an association with stem/progenitor cell immunophenotype. 779 46

We studied lineage involvement in two cases of acute myeloid leukemia (subtypes M2 and M3 expressing translocations 8;21 and variant 15;17, respectively) using the combined immunophenotype and chromosome painting technique known as the MAC (Morphology Antibody Chromosomes) method. We only found the translocations in CD13-positive granulocytic metaphases and not in glycophorin-A-positive erythroid metaphases. These results suggest that the translocations 8;21 and 15;17 only appear in one cell lineage. The karyotype of the cells with a variant 15;17 translocation was 46;XX,der(1)t(1;15)(p?21; q?22)t(1;17)(q?23;q?12),der(15)t(1;15)(q?23;q?22),der(17)t(1;17)(p?21; q?12)/46,XX.
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PMID:8;21 and 15;17 translocations: abnormalities in a single cell lineage in acute myeloid leukemia. 781 9

We describe our experience in the identification of 19 cases of AML-M0 categorized among 200 consecutive AML cases. Leukaemic cells from our cases were morphologically marked by agranular basophilic cytoplasm, finely dispersed chromatin and prominent nucleoli. In two cases heavily vacuolated and monocytoid-shaped blasts were also observed. Cytochemistry (MPO, SBB, alpha ANAE, alpha NBE, NASDCAE, AP, PAS) was negative in 14 cases, five cases expressing a very faint cytoplasmic positivity for alpha NBE (not exceeding 30% of the blasts) and alpha ANAE (not exceeding 41%) which was sodium fluoride resistant. In these five cases other monocytic markers (e.g. CD14) were not in favour of myelomonocytic differentiation. All the cases were anti-MPO positive at frequency > 10%. Phenotypic analysis also revealed myeloid features with all the patients having at least one myeloid antigen (CD13, CD33, CD15), Tdt was expressed in nine cases and CD7 in six cases. All cases but one were positive for CD34. Cytogenetic analysis, performed in 16 cases, showed no adequate growth in two cases and no consistent abnormality in four; among the remaining 10 cases no consistent abnormality was observed, the most common finding was trisomy 8 (two cases) and 4 (two cases) and aberrations of chromosomes 2, 3, 5, 7, 9, 12 and 21. No cases of (t9;22), Ph chromosome were observed. Interestingly three out of five patients with faint alpha NBE/alpha ANAE positivity relapsed as typical M4 (one case) or M5a (two cases).
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PMID:Minimally differentiated acute myeloid leukaemia (AML-M0): cytochemical, immunophenotypic and cytogenetic analysis of 19 cases. 781 3

We examined leukemic blasts from 5 cases of AML-M0 diagnosed according to The French-American-British (FAB) classification for expression of immunological markers as well as myeloperoxidase (MPO) using flow cytometry (FCM) and immunocytochemistry (ICC). In one patient, the myeloid antigens, CD13 and CD33, were negative on FCM, but apparently positive in the cytoplasm by ICC, leading to a diagnosis of AML-M0. We examined MPO with anti-MPO monoclonal antibody in four patients by ICC, and could detect 3% or more MPO positive rates in all cases. These findings indicate that immunological studies for MPO and myeloid markers using ICC are very useful for the diagnosis of AML-M0. Two of 5 patients achieved CR, but they relapsed soon or after one year, respectively. The treatment outcomes suggest that the AML-M0 is an AML subtype with poor prognosis.
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PMID:[Immunocytochemistry in the diagnosis of acute myeloid leukemia (M0)]. 782 96

Clinical and cytologic characteristics were correlated to immunologic markers in 154 patients with newly diagnosed acute myeloid leukemia (AML). The panel of monoclonal antibodies (MoAbs) was selected to identify differentiation-associated antigens of both the myeloid and the lymphoid lineages (CD13, CD33, CD14, CD15, CD7, CD34, CD10, HLA-DR, CD19, CD2, CD5, TdT). The expression of multidrug resistance P-glycoprotein (P-170) was also evaluated in 117 patients. Differences in antigenic expression was observed among the various French-American-British (FAB) subgroups. HLA-DR was poorly expressed on the blasts of acute promyelocytic leukemia (M3), and was always found in FAB M5. CD34 was detectable in all M0 cases and only in one M3 (p < 0.001). Lymphoid-associated antigens were positive in 74 cases (48.1%). In particular, CD7 was found in 49 patients (31.8%), and TdT in 30 (21.3%), 15 samples displaying coexpression of these two antigens. The incidence of CD7+ cases was particularly elevated in M0 and M5 AML (p = 0.005). It significantly correlated with the expression of CD34, HLA-DR, P-170 (p < 0.001, p = 0.018 and p = 0.034 respectively), and with a leukocyte count > 50 x 10(9)/l (p = 0.038). Sixty-nine (59%) samples demonstrated P-170 positivity. Again, this phenotype was particularly expressed in the poorly differentiated forms (M5, M0 and M1) and showed significant correlation with the immaturity markers CD34, CD7 and HLA-DR (p = 0.013, p = 0.022 and p = 0.001, respectively). Expression of individual antigens correlated with prognosis. Refractoriness to first line therapy was associated with CD7 expression (p = 0.002) and P-170 (p = 0.001). The CD7 marker was also significantly associated with a very low overall survival (p < 0.001) and continuous complete remission (p < 0.001). CD14 expression also significantly predicted lower survival rates (p = 0.033). The combination (CD7+ CD14+) identified a subset of patients with a particularly adverse outcome. The prognostic value of CD7 expression, alone or in combination with other markers, was confirmed in multivariate analysis.
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PMID:Prognostic value of cell marker analysis in de novo acute myeloid leukemia. 790 93

A case of acute myeloid leukemia (AML) with an unusual phenotype which was negative for a panel of myeloid antigens determined by flow cytometry, but was strongly positive for myeloperoxidase has recently been reported. We herein describe a case of AML with this unusual phenotype at diagnosis; relapse occurred with the acquisition of CD13 and CD33 expressions. Morphological features of the blasts at relapse seemed to be more compatible with myeloblasts than those at diagnosis. These phenotypic and morphological changes are suggestive of asynchronous differentiation, clonal evolution or clonal change of leukemic cells.
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PMID:Acquisition of CD13 and CD33 expression at relapse on acute myeloid leukemia cells with an unusual phenotype: MPO+CD13-CD33-. 790 35

All-trans retinoic acid (RA) has proven a major advance in the treatment of acute promyelocytic leukemia (APL). However, the proper management of patients who present with or develop leukocytosis during remission induction with all-trans RA is not established, nor is there a clear relation between leukocytosis and the development of the retinoic acid syndrome. We reviewed the course of our patients who underwent induction with all-trans RA to identify potential factors that might predict for the development of this syndrome and to identify which patients, if any, might specifically benefit from additional treatment with cytotoxic chemotherapy. Seventy-eight courses of all-trans RA therapy were administered to patients with a molecular diagnosis of APL. Initial and peak leukocyte counts, their rate of rise, leukocyte count criteria developed in Europe, and cell surface marker expression were all analyzed relative to subsequent development of both the RA syndrome as well as all causes of early mortality. The outcome of patients who received specific treatment for retinoid-induced leukocytosis was also examined. No factor was found to consistently predict for the development of the RA syndrome. Although the occurrence of the syndrome was positively associated with the peak value of the peripheral blood leukocyte count (P = .001), neither the initial leukocyte count nor the rate of rise in leukocyte counts on days preceding onset of the syndrome were sufficiently well-correlated to be clinically useful (P = .21). The leukocyte count criteria developed in Europe had a sensitivity of 62%, a specificity of 69%, and a positive predictive value that ranged from only 44% to 72%. However, we unexpectedly found that basal expression of CD13 (aminopeptidase N), a cell surface enzyme previously linked to tumor cell invasion and an inferior outcome in patients with acute myeloid leukemia, was highly associated with both development of the syndrome (P < .05) as well as an elevated leukocyte count (P = .006). Neither low-dose chemotherapy nor leukapheresis prevented development of the syndrome nor ameliorated its effects. In fact, 9 of 11 patients who received these interventions sustained fatal or near-fatal events, most of which were due to hemorrhage. However, early treatment with a short-course of high-dose corticosteroids halted progression of the syndrome in most cases. Finally, we found that expression of the type "A" isoform of PML/RAR-alpha (also known as bcr3 or "short") was associated with a significantly shorter duration of relapse-free and overall survival (P = .005).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Early mortality and the retinoic acid syndrome in acute promyelocytic leukemia: impact of leukocytosis, low-dose chemotherapy, PMN/RAR-alpha isoform, and CD13 expression in patients treated with all-trans retinoic acid. 794 41

Various types of cytokines have been used in in vitro experiments to generate cytokine-induced killer (CIK) cells that are reactive to patient acute myeloid leukemia (AML) cells. Of these CIK cells, interleukin-2 (IL-2)-activated peripheral blood mononuclear cells, i.e., lymphokine-activated killer (LAK) cells, with the initial addition of the anti-CD3 monoclonal antibody (T3 LAK cells), are the most potent cytotoxic lymphocytes, and have marked proliferative capacity. The cytotoxicity of such T3 LAK cells against CD13+ AML cells is further enhanced by the addition of anti-CD3 x anti-CD13 bispecific antibody (BsAb) during the cytotoxicity assay. The combined use of T3 LAK cells and the BsAb can be used for ex vivo purging of CD13+ AML cells in autologous bone marrow transplantation. Other cytokines, such as IL-7 or IL-7 in combination with IL-2, or newly identified cytokines, will also be tested in attempts to obtain more specific and more potent effector cells. Studies of methods to increase the susceptibility of AML cells to CIK are also required.
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PMID:Cytotoxicity of cytokine-induced killer cells coated with bispecific antibody against acute myeloid leukemia cells. 795 Sep 10


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