UMLS:C0023418 - FACTA Search

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

The level of myeloperoxidase (MPO) mRNA is reduced significantly after HL-60 induced differentiation with the tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA). We examined the chromatin structural changes of the MPO gene during TPA induction. Before TPA induction about nine DNase I hypersensitive sites (HS) were found on the 5' upstream and at various intron regions of the MPO gene. A new HS was found on intron 8 within 4 h of induction; its appearance preceded down regulation of the MPO gene. At the same time DNase I HS found in 0.3 and 1-1.5 kb upstream of the MPO CAP site, were significantly reduced or disappeared after TPA induction. These chromatin structural changes could be closely linked to the mechanism which regulates the MPO gene expression.
Leukemia 1991 Mar
PMID:Down regulation of myeloperoxidase gene associated with specific nuclease hypersensitive sites during TPA induced differentiation of HL-60. 184 1

To define the clinical and biologic significance of childhood acute mixed-lineage leukemia diagnosed by stringent criteria, we studied 25 cases of acute lymphoblastic leukemia expressing greater than or equal to 2 myeloid-associated antigens (My+ ALL), and 16 cases of acute myeloid leukemia expressing greater than or equal to 2 lymphoid associated antigens (Ly+ AML). These cases represented 6.1% of 410 newly diagnosed ALLs (two treatment protocols) and 16.8% of 95 AMLs (two protocols). T-lineage--associated antigens were identified in 9 of the My+ ALL cases and in 14 of those classified as Ly+ AML; all but 1 of the 19 cases that could be subclassified had an early thymocyte stage of differentiation. The My+ ALL cases had an increased frequency of French-American-British (FAB) L2 morphology (36%); the Ly+ AML cases were characterized by FAB M1 or M2 morphology, low levels of myeloperoxidase reactivity and combined populations of myeloperoxidase-positive large blasts and small blasts generally of hand-mirror morphology. Karyotypic abnormalities included t(9;22)(q34;q11) in three cases of My+ ALL, 11q23 translocations in two cases of My+ ALL, and 14q32 translocations in three My+ ALL and five Ly+ AML cases. Mixed-lineage expression lacked prognostic significance in either ALL or AML; however, the findings indicate that some patients with Ly+ AML may respond to prednisone, vincristine, and L-asparaginase after failing on protocols for myeloid leukemia. At relapse, two My+ ALLs had converted to AML and two Ly+ AMLs to ALL; one case in each group showed complete replacement of the original karyotype. Acute mixed-lineage leukemia does not adequately describe the heterogeneity of the cases identified in this study and should be replaced by a set of more restrictive terms that indicate the unique biologic features of these leukemias.
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PMID:Characterization of childhood acute leukemia with multiple myeloid and lymphoid markers at diagnosis and at relapse. 158 28

To identify the biological characteristics of so called stem cell leukemia (SCL), of which leukemic blast cells should be derived from pluripotent stem cells, immunophenotypical and genotypical analysis and response to several hematopoietic cytokines were studied in 272 cases with acute de novo leukemia. In 132 cases with acute myelogenous leukemia (AML), some cases of CD19+ and/or CD7+ AML were considered as SCL. In cases with myeloperoxidase negative acute lymphoblastic leukemia (ALL), cases of CD7 + CD1 - CD3 - CD4 - CD8 - My-Ag (myeloid antigens) +ALL, considered as those of T-precursor ALLs, and cases of HLA-DR + CD19 + CD20 - My-Ag + ALL, considered as those of B-precursor ALLs, were though to be SCL. We did not think the cases of ALL with dual genotype to be SCL, since dual genotype could not be considered as sings of ability to differentiate to multilineage but as products of the process of active V-DJ rearrangements of Ig heavy chain gene.
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PMID:[Diagnosis of stem cell leukemias in view of phenotypic and genotypic analysis]. 189 Jul 37

We studied gene rearrangement and expression of immunoglobulin heavy (IgH) chain, T cell receptor (TCR) beta, gamma and delta chains in neoplastic T cells from patients with leukemia and lymphoma. Rearrangements of TCR beta and gamma chain genes were observed in most of T cell neoplasms. TCR delta chain gene rearrangements or deletions were detected in all 77 T cell neoplasms; 6 of 9 CD3- T cell neoplasms showed rearrangement, whereas biallelic deletion of TCR delta chain gene was the most common pattern in CD3+ T cell neoplasm (65 of 68 patients). One patient with CD3- T cell leukemia had TCR delta chain gene rearrangement with a germline configuration of TCR beta, gamma and IgH chain genes. TCR gamma and delta chain gene transcripts were detected in most of the CD3- T cell neoplasms, whereas mature TCR alpha and beta chain mRNA were demonstrated in the majority of the CD3+ T cell neoplasms. In 6 patients with CD7+ CD3- CD4- CD8- MPO- leukemia, only 2 patients had rearrangements and weak expressions of IgH, TCR gamma and delta chain genes. We also present two cases of double negative (CD3+ CD4- CD8-) leukemia; one is TCR gamma delta bearing LGL, the other is TCR alpha beta bearing ATL. These results suggest that most of T cell neoplasms preserve a pattern of genotypic and phenotypic expression reflecting their developmental pathways and differentiation levels of TCR bearing normal T cells.
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PMID:[Analyses of T cell receptor and its clinical implications in T cell neoplasms]. 189 Jul 39

Surface phenotyping by flow cytometry and cytochemical study were used to identify 15 adult patients with acute leukemia displaying ambiguous phenotypes. Differences were found in the blast cell karyotype and immunoglobulin gene rearrangements of terminal deoxynucleotidyl transferase (TdT)-positive acute myelogenous leukemia (AML) and biphenotypic leukemia expressing B lymphoid and myeloid markers. The karyotypic abnormalities, t(9;22) and t(4;11), were noticed in acute biphenotypic leukemia, and were consistently associated with rearrangement at the immunoglobulin locus. Furthermore, coexpression of CD19/CD20 and either myeloperoxidase or myeloid surface markers were predictive of finding the t(9;22) or t(4;11) karyotype. Patients with TdT-positive AML, on the other hand, were less likely to show rearrangement at the immunoglobulin locus, and did not have the t(9;22) or t(4;11). Instead, a variety of nonrandom karyotypic abnormalities were seen, including trisomy 13. Unlike common AML, the majority of TdT-positive cases demonstrated an abnormal karyotype with duplications and/or deletions present in all cases. In no instance was trisomy 8, t(8;21), t(15;17), or any other isolated translocation identified. The authors therefore suggest that immunophenotyping, when combined with cytochemical analysis of TdT and myeloperoxidase or Sudan black B, may aid in the characterization of subgroups of atypical acute leukemia, such that alternate approaches to therapy can be evaluated.
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PMID:Surface marker analysis and karyotype distinguish acute biphenotypic leukemia from acute myelogenous leukemia expressing terminal deoxynucleotidyl transferase. 191 54

The expression of myeloperoxidase (MPO) was studied in 100 cases of acute leukaemia (83 with acute myeloid leukaemia (AML) and 17 acute lymphoblastic leukaemia (ALL) by both a conventional cytochemical method and the immunocytochemical antiperoxidase (APAAP) technique using the monoclonal antibody MPO7. In each case the staining was evaluated by light microscopical examination (percentage of positive cells). Of the 83 cases of AML, 78 (93.9%) were positive for MPO7 compared with 70 (84.3%) by cytochemistry. Antibodies against the myeloid markers CD13 and CD33 were positive in 71 (85.5%) and 70 (84.3%) cases, respectively. Importantly, all cases of ALL were negative for both MPO7 and cytochemical MPO staining even when they were positive for CD13 and CD33. These results indicate that the anti-myeloperoxidase antibody MPO7 is the most sensitive and specific reagent for the diagnosis of AML and should therefore be included in routine immunophenotyping panels.
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PMID:Value of monoclonal anti-myeloperoxidase (MPO7) for diagnosing acute leukaemia. 197 71

Most cases of acute leukemia with deletions of chromosome 5q (5q-) are acute myelogenous leukemia. 5q- in acute lymphoid leukemia is rare. We studied a case of acute leukemia with 5q- using morphologic, cytochemical, immune and molecular techniques. Morphologic and cytochemical techniques were consistent with ALL (FAB L-2, PAS+, MPO-, ASD-). TdT was present. Immune studies suggested a T-cell phenotype (CD5+, CD7+); however, there was no rearrangement of the T beta-cell receptor gene. Surprisingly, the leukemia cells also expressed the CD13 myeloid antigen. Dual staining analysis showed co-expression of lymphoid and myeloid antigens on most cells. Based on these data and a review of previous reports we suggest that acute leukemia associated with the 5q- abnormality can occur in an immature stem cell resulting in a hybrid leukemia.
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PMID:Hybrid leukemia and the 5q-abnormality. 204 86

We report two cases of Philadelphia (Ph1) chromosome positive acute mixed lineage leukemia (AMLL) with breakpoint cluster region (bcr) (M-BCR-1) rearrangement. A 31 year-old-man (case 1) and a 42 year-old-woman (case 2) were admitted to our hospital for further evaluation of leucocytosis with atypical blasts. Each case was diagnosed as having bilineal type of AMLL because: (1) blasts in each case consisted of larger myeloid cells positive for myeloperoxidase and small lymphoid cells positive for PAS, and blasts in case 2 were positive for TdT; (2) blasts in case 1 expressed B lymphoid associated antigen; (3) Southern analysis in each case showed clonal rearrangements of both the immunoglobulin heavy chain and the T cell receptor beta gene. These two cases demonstrated the Ph1 chromosome and rearrangement of the bcr (M-BCR-1) gene, but none of splenomegaly, basophilia, and additional chromosome abnormalities were observed. In addition, after achieving remissions, they didn't revert to chronic phase of chronic myelogenous leukemia (CML) and showed normal neutrophil alkaline phosphatase scores, and the Ph1 chromosome disappeared completely in case 1 and coexisted with the normal chromosome in case 2. These findings suggest that diagnosis of both cases should not be CML blast crisis (BC) but Ph1 positive acute leukemia, and Ph1 positive AMLL may be a distinct clinical entity to be distinguished from CML-BC.
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PMID:[Philadelphia chromosome positive acute mixed lineage leukemia with bcr (M-BCR-1) rearrangement]. 215 95

Whereas the diagnosis of acute lymphoid leukaemia greatly depends on immunophenotyping on the leukaemic cells, the diagnosis of acute myeloid leukaemia (AML) is still only based on morphological and cytochemical criteria. Here we describe that with a monoclonal antibody, directed against myeloperoxidase (MPO), the immunological diagnosis of AML is possible in most cases. A monoclonal antibody against lactoferrin (LF) was used to detect more mature myeloperoxidase-containing cells. Of the cell samples tested from 206 different patients with AML, 95% were found to express myeloperoxidase in more than 15% of lactoferrin-negative cells. Compared with other myeloid-reactive monoclonal antibodies (VIM2, anti-CD13, anti-CD14, anti-CD15 and anti-CD33), a higher diagnostic sensitivity and specificity for AML was found. No significant correlation with the FAB classification was found. In most patients, more MPO-positive cells were detected by the monoclonal antibody than by the cytochemical staining. This could be due to the recognition of enzymatically inactive precursor forms of myeloperoxidase by the antibody. The use of anti-myeloperoxidase monoclonal antibodies for the diagnosis of AML has the advantage that objective quantification is possible.
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PMID:Monoclonal antibodies against myeloperoxidase are valuable immunological reagents for the diagnosis of acute myeloid leukaemia. 216 59

Myeloperoxidase is a major protein component of the azurophilic granules (specialized lysosomes) of normal human neutrophils and serves as part of a potent bactericidal system in the host defense function of these cells. In normal, mature cells, myeloperoxidase occurs exclusively as a dimer of Mr 150,000 while in immature leukemia cells, there are both monomeric (Mr 80,000) as well as dimeric species. Like other lysosomal enzymes, myeloperoxidase is synthesized as a larger glycosylated precursor (Mr 91,000) that undergoes processing through single-chain intermediates (Mr 81,000 and 74,000) to yield mature heavy (Mr 60,000) and light (Mr 15,000) subunits. To study the assembly of dimeric myeloperoxidase, azurophilic granules were isolated from either unlabeled or pulse-labeled ([35S]methionine/cysteine) HL-60 cells, and myeloperoxidase was extracted and separated into monomeric and dimeric forms by FPLC gel filtration chromatography. Steady-state levels of dimeric and monomeric myeloperoxidase were found to account for 67% and 33%, respectively, of the total peroxidase activity and were correlated with the levels of associated heme as measured by absorption at 430 nm. Labeled myeloperoxidase polypeptides were immunoprecipitated using a monospecific rabbit antibody and were identified and quantitated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis/fluorography and liquid scintillation counting. After a 2-h pulse, labeled myeloperoxidase species of Mr 74,000 and 60,000 were found in fractions coeluting with the monomeric form of myeloperoxidase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Assembly of dimeric myeloperoxidase during posttranslational maturation in human leukemic HL-60 cells. 215 41

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