UMLS:C0023473 - FACTA Search

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We performed cytogenetic and molecular analysis of the BCR-ABL rearrangement by polymerase chain reaction (PCR) in 39 consecutive cases of adult acute lymphoblastic leukemia (ALL). Eleven patients had a Philadelphia (Ph) chromosome. Thirteen patients had a BCR-ABL rearrangement, involving minor breakpoint cluster region (m-bcr, situated in intron 1 of the BCR gene) in 11 cases, and major breakpoint cluster region (M-bcr, 'specific' of chronic myeloid leukemia) in the remaining two cases. All of the 12 BCR-ABL cases studied immunologically were of early B, CALLA-positive immunophenotype. The 13 BCR-ABL positive cases included the 11 Ph-positive cases, and two patients with normal karyotype at diagnosis. In the two Ph-negative BCR-positive cases, seven (patient 1) and 18 (patient 2) mitoses had been examined at diagnosis. In patient 1, Ph negativity at diagnosis could certainly be explained by the small number of mitoses analyzed, as a Ph chromosome was found at relapse. This was less probable in patient 2, who raised the issue of whether authentic Ph-negative BCR-ABL-positive ALL exists (as in the chronic myeloid leukemia model) or not. Whatever the explanation, our results suggest that molecular detection of BCR-ABL should be more widely used in B-lineage ALL.
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PMID:Philadelphia negative, BCR-ABL positive adult acute lymphoblastic leukemia (ALL) in 2 of 39 patients with combined cytogenetic and molecular analysis. 832 Oct 20

We report two cases of Philadelphia chromosome (Ph)-positive acute leukemia with definite myeloid markers. Ph was the sole chromosomal abnormality at presentation, and neither eosinophilia, basophilia, thrombocytosis nor hepatosplenomegaly was present. In both cases, Ph+ myeloblasts showed positive stain for myeloperoxidase and naphthol ASD chloroacetate esterase, which fulfilled the FAB criteria of acute myelogenous leukemia (AML). Ph+ myeloblasts co-expressed myeloid and B-lymphoid antigens (CD10, CD13, CD19 and CD33). In case 1, myeloblasts rearranged M-BCR, and the expression of M-BCR/ABL chimeric RNA was demonstrated by using the reverse transcription polymerase chain reaction (RT-PCR). They also clonally rearranged IGH. Ph clone disappeared on cytogenetic analysis in remission, and granulocytes in remission did not have rearranged M-BCR. In case 2, morphocytochemically distinct myeloid and lymphoid blast populations were seen. Myeloblasts and lymphoblasts were enriched > 96% as CD19-/CD33+ and CD19+/CD33- populations, respectively. Both of them possessed the identical rearrangement of IGH and M-BCR, indicating a common leukemic progenitor cell origin. Furthermore, m-BCR/ABL was detected in addition to M-BCR/ABL on RT-PCR. Accordingly, both cases were diagnosed as de novo Ph+ acute leukemia rather than as chronic myelogenous leukemia in blastic crisis. Their mixed B-lymphoid/myeloid characteristics strongly suggest that so-called 'Ph+ AML' is derived from Ph+ myeloid/B-lymphoid stem cells.
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PMID:B-lymphoid/myeloid stem cell origin in Ph-positive acute leukemia with myeloid markers. 832 35

Correlation between the FAB classification and immunophenotype was studied in 169 consecutive adult patients with acute leukaemia (AL). The lineage of leukaemic cells could be determined in the majority of cases, whereas 3 patients (1.8%) remained unclassified. In 22 out of 71 patients (31%) with acute myeloid leukaemia (AML) FAB M1 and M2 types, and in 5 out of 16 patients (31%) with chronic myeloid leukaemia (CML) in myeloid blast crisis, leukaemic cells did not express myeloid lineage-related markers, indicating asynchronous expression of cell markers in a substantial proportion of patients. Flow cytometric two-colour immunofluorescence revealed mixed AL immunophenotype in 6 out of 169 patients (3.4%). This group included five CD2+AML (5% of AML tested) and one undifferentiated AL expressing CD10(CALLA), CDw65(VIM-2). The former group included FAB M1, M2, M3 and M4 forms of AML with a single cell population, and an AML M2 patient with both cytochemically and immunologically two separate populations of leukaemic cells. This further illustrates the heterogeneity of the target cell(s) for leukaemogenesis and the level of differentiation of AML cells. However, there was no difference in the treatment response and the remission duration between AML patients and patients with mixed phenotype AML.
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PMID:Correlation of morphological FAB classification and immunophenotyping: value in recognition of morphological, cytochemical and immunological characteristics of mixed leukaemias. 851 29

Thirty-four patients with chronic myeloid leukemia in blast crisis (CML-BC) were evaluated for lineage differentiation with immunological markers and the presence of ultrastructural peroxidase. Eighteen (52.9%) were found to have myeloid blast crisis. Cytochemically, myeloperoxidase (MPO) could be detected only in six patients on light microscopy while in the remaining 12 patients, myeloid differentiation was confirmed only by demonstration of MPO either at ultrastructural level or by the reactivity with anti myeloperoxidase (anti MPO) antibody. Six (17.6%) had lymphoid blast crisis as identified by lymphoid specific markers (CD19; CD10; CD7; CD4) along with the absence of myeloid markers. Heterogenous blast cell populations with mixed lineage differentiation were seen in 4 (11.7%) patients. These cases showed both lymphoid (CD19, CD10) and myeloid (anti MPO and ultrastructural MPO) characteristics. A single case of megakaryoblastic blast crisis was identified with positivity for CD41 and CD42 along with the presence of platelet peroxidase at the ultrastructural level. Five cases (14%) of CML blast crisis remained unclassifiable. These results suggest that blast crisis in CML show an arrest of differentiation at an early stage when compared to de novo acute leukemias. This is particularly evident from the fact that MPO could only be demonstrated ultrastructurally or with anti MPO antibody in the majority of patients with myeloid differentiation. It is expected that utilisation of molecular studies including immunoglobulin and T-cell receptor gene rearrangement and m-RNA expression for myeloperoxidase will provide a better insight into the level of differentiation for the presently unclassifiable cases of CML-blast crisis.
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PMID:Immunophenotype and ultrastructural studies in blast crisis of chronic myeloid leukemia. 853 24

A 58-year-old man was referred to our hospital because of his refractory leukemia. Laboratory examinations showed mild anemia and leukocytosis but no blast was seen in the blood. The patient's bone marrow was hyperplastic and 64.8% of marrow cells were lymphoblastoid cells. They were positive for CD10, CD19, CD34 and HLA-DR antigen. Cytogenetic analysis revealed the Ph chromosome in 17 of 20 metaphases. A Southern blot analysis demonstrated no rearrangement of M-BCR gene. A diagnosis of Ph-positive ALL was made. The patient received chemotherapy and reached a complete remission. At that time, however, his marrow cells had Ph chromosome in 7 of 7 metaphases and rearrangement of m-BCR was positive in PCR analysis. He died of septic shock during the intensive consolidation therapy. Clinically this patient seems to have de novo Ph-positive ALL though his marrow cells had Ph chromosome in all metaphases at the time of complete remission. Recently the rare cases of Ph-positive CML with an m-BCR breakpoint are reported in the literature. This patient may have such a type of CML in blastic phase.
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PMID:[A patient with clinically de novo Ph-positive acute lymphoblastic leukemia had Ph chromosome in all metaphases at the time of hematological remission]. 891 71

The clinical course of chronic myeloid leukemia (CML) is highly variable and therefore it is difficult to predict the duration of the chronic phase. We studied the immunological expression of maturation patterns in 62 cases of CML (30 cases in clinical/cytological blast crisis (BC), 32 cases in clinical/cytological chronic phase (CP) by means of a double marker enzyme immuno assay (DM-EIA). Immunological findings were supplemented by Southern blots using Ig-JH-, TCRbeta- and bcr-probes. Patients in BC (n = 30) expressed high proportions of CD10, CD20, CD33, CD34 and low degrees of a mature myeloid marker (CD15). Myeloid BC bone marrow (BM) cells showed a high degree of coexpression of unusual, lineage restricted markers: 25% of CD15-positive cells also expressed markers like CD10, CD20 or CD34. In contrast, BM cells in lymphoid BC did not show this coexpression. In CP two groups were distinguished immunologically: concordant cases which were immunologically normal (n = 14) and discordant cases (n = 18) which showed increased proportions of unusual, lineage restricted markers and double labelled cells (e.g. CD15/CD34). The latter group developed clinical BC earlier during further follow up (p = 0.009). Cases of lymphoid BC (n = 11)--in contrast to acute lymphoblastic leukemia (ALL) patients (n = 21)--did not show coexpression of CD15/CD10, CD20, CD34. These data show that blast clones can be detected in CML-CP by characteristic immunological maturation defects several months before the clinical onset of BC. Moreover, the lymphoid "blasts" of CML-BC represent a relatively differentiated lymphoid population of cells which can be distinguished from ALL by their lack of coexpression of unusual, lineage restricted markers.
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PMID:Immunological classification of chronic myeloid leukemia distinguishes chronic phase, imminent blastic transformation, and acute lymphoblastic leukemia. 919 28

In order to clarify the action of the bcr-abl, a growth factor dependent human leukemic cell line (HSM-911) was transfected with p210bcr-abl or bcr-v-abl by electroporation. The cells transfected with bcr-v-abl, but not the cells transfected with p210bcr-abl, became growth factor independent. Some clones of the cells transfected with p210bcr-abl demonstrated cellular maturation (nuclear segmentation, becoming positive for naphthol ASD chloroacetate esterase, the disappearance of CD34 expression and the appearance of glycophorin A and CD10 expression). Moreover, these clones transfected with p210bcr-abl demonstrated apoptosis (increased expression of Fas and DNA ladder formation suggesting apoptotic DNA fragmentation). These findings demonstrated the different actions of p210 bcr-abl and bcr-v-abl, the former of which gave the cells the characteristics of maturation like the cells from chronic myelogenous leukemia, and the latter of which rendered the cells grow autonomously.
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PMID:Effects of transfection of p210bcr-abl and bcr-v-abl into the factor-dependent human leukemia cell line HSM-911. 944 46

In our study we used for definition of leukemia/lymphoma cells a new parameter which allows the enumeration of mean fluorescence intensity expressed by the number of antigen molecules per cell. Quantitative immunofluorescence using calibration microbeads was performed in 36 patients with different acute and chronic lymphoid and myeloid leukemia and in 19 healthy volunteers. We showed that quantitative immunophenotyping allowed the definition of aberrant marker densities on neoplastic cells. We demonstrated under- and overexpression of CD8 marker in CD3/CD4/CD8 complex in T acute lymphatic leukemia and T non-Hodgkin's lymphoma and T leukemia of large granular lymphocytes as compared to normal counterparts. We pointed out that certain antigens (e. g. CD10, CD4, CD24) were expressed at different levels on different cell subsets (CD10 in early B-acute lymphatic leukemia and coexpressed in T-acute lymphatic leukemia, CD4 on T cells and monocytes, CD24 on B cells and granulocytes in chronic myeloid leukemia). We showed that quantitative immune fluorescence could provide new data contributing to a more precise definition of cell differentiation. We documented the significant difference between antigen density of early and late markers in B-cell and myeloid malignancies. Further, we demonstrated that quantitative immune phenotyping could help in determination of exact definition of pathologic clone in morphologically immature leukemia population and showed that parameters of this method are also convenient for cytoplasmic marker evaluation. In our study we were able to demonstrate that CD45 quantitative expression appeared to be a more informative parameter than its percentage of antigen-positive cells as a measure of antigen expression only and we pointed out that low and high CD45 densities enabled to differentiate between pathological clone and residual healthy population in examined sample. We showed that quantitative immune phenotyping could be another important parameter for definition of leukemia phenotype suitable for detection of minimal residual disease.
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PMID:Quantitative immunocytofluorometry--new parameters for the definition of leukemia cells. 960 6

A large number of continuous human leukemia cell lines have been established over the last three decades. Clearly, leukemia cell lines have become important research tools. Here, we have summarized the immunological, molecular and standard cytogenetic features of a panel of well characterized B cell precursor (BCP)-leukemia cell lines which were derived from patients with acute lymphoblastic/undifferentiated leukemia (ALL/AUL) or chronic myeloid leukemia (CML) in blast crisis. Following the recently proposed immunological EGIL classification, we assigned our panel of 27 BCP-cell lines to one of the following categories: B-I pro-B cell line; B-II common-B cell line; and B-III pre-B cell line. All cell lines express general B-lineage associated surface markers (HLA-DR, CD22, CD79a) being negative for surface immunoglobulin (Ig); the differences between the subgroups reside in expression of CD10 and cytoplasmic Ig. Several BCP-cell lines show the myelomonocytic cell-associated markers CD13 and/or CD33. These immunologically 'biphenotypic' BCP-cell lines are generally TdT+ CD10+ CD13+ CD19+ CD22+ CD34+ and carry the Philadelphia (Ph) translocation. The BCP-cell lines display surface receptors for interferon-gamma (CD119), interleukin-7 (CD127) and FLT-3 ligand (CD135). All BCP-cell lines examined have complex numerical and structural chromosomal alterations including translocations commonly seen in BCP-ALL such as t(4;11), t(9;22), t(11;19), t(12;21), and t(17;19) involving the fusion genes MLL-AF4, BCR-ABL, ENL-MLL, TEL/ETV6-AML1 and E2A-HLF, respectively. Besides the expected rearrangement of the Ig heavy chain receptor gene, several cell lines also have rearrangements of the T cell receptor genes beta, gamma or delta. While some BCP-cell lines express (aberrantly) myeloperoxidase at the mRNA level, most lines are negative in the immunological or cytochemical staining. Several large series documented the difficulty in establishing such BCP cell lines with success rates in the range of 10-20% (on average 15%). Still, since the establishment of the first bonafide BCP-cell line in 1974 (cell line REH), some 150 cell lines have been established of which, however, only a small percentage have been sufficiently well characterized and described. A higher success rate for immortalizing any given leukemia cell might depend on a closer emulation of the physiological in vivo microenvironment. The possibility to grow in vitro leukemia cells at will would represent ideal experimental systems permitting basic research and patient-specific investigations. In summary, the use of well-characterized BCP-cell lines provide unprecedented opportunities for studying a multitude of biological aspects related to normal and neoplastic B-lymphocytes.
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PMID:Establishment and characterization of human B cell precursor-leukemia cell lines. 968 Jan 6

CD66c is a surface (and intracellular) molecule bound to the membrane by a glycosyl-phosphatidylinositol anchor. While its expression on peripheral granulocytes is well recognized, less is known about its distribution in early steps of normal and neoplastic hematopoiesis. We analyzed by flow cytometry cell surface expression of CD66c on bone marrow cells from 4 healthy subjects and on bone marrow or peripheral blood cells from 127 patients with newly diagnosed hematologic malignancies: 70 de novo acute myeloid leukemias (AML), 6 refractory anemias with excess of blasts in transformation, 3 myeloid and 3 lymphoid blastic phases of chronic myelogenous leukemia, 33 B-lineage and 6 T-lineage acute lymphoblastic leukemias (B- and T-ALL), and 3 B-cell and 3 T-cell non-Hodgkin's lymphomas in the leukemic phase. We found that in normal bone marrow CD66c expression was myeloid restricted, reaching its highest level on promyelocytes. As for de novo AML, slight expression of CD66c was found on 6/25 (24%) AML-M4 and only occasionally in other subgroups. In 9 out of 10 cases of acute promyelocytic leukemia, CD66c was totally absent, but antigen expression was easily detectable following in vitro exposure to all-trans retinoic acid. Among lymphoid malignancies, CD10+ early-B-ALL consistently expressed the molecule (20/23 cases, or 87%) whereas both CD10- early-B ALL and SmIg+ B-ALL completely lacked it. Finally, dual staining with CD66c and CD10 proved to be a suitable tool for distinguishing even low percentages of residual leukemic cells (CD10+/CD66c+) from normal regenerating early-B cells (CD10+/CD66c ) in CD10+ early-B-ALL induced into remission.
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PMID:CD66c antigen expression is myeloid restricted in normal bone marrow but is a common feature of CD10+ early-B-cell malignancies. 971 68

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