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)

In untreated CML patients (at diagnosis or in relapse) we find about the same number of CFC per 1.10(6) nucleated cells in the blood and bone marrow (sometimes, slightly greater in the blood than in the marrow). Application of density-cut separation shows normal number of CFC in the low density fraction (Ldf-CFC) of bone marrow cells from patients in remission. In 7 untreated patients (at diagnosis or in relapse), we have always found a greater number of Ldf-CFC in the blood than in the marrow, when the study is performed on the same day and in the same technical conditions. This difference is observed even if the leukocytes count is elevated and thence, the contamination of bone marrow cells by blood cells is presumably important. The percentage of peripheral blood Ldf-CFC seems to be positively correlated with the number of peripheral blood leukocytes. The highest percentage of Ldf-CFC (greater than 60%) have been found in 5 patients in relapse. Two of these have entered into the blastic phase of CML and the three others relapse repeatedly in the chronic form of the disease.
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PMID:[Study of colony forming cells and aggregates (CFCA) in vitro in blood and bone marrow of patients with chronic myeloid leukemia: simplified bovine serum albumin gradient centrifugation]. 12 37

The interactions between haemopoietic progenitor cells and marrow stromal cells that are essential for the regulation of normal haemopoiesis are defective in chronic phase chronic myeloid leukaemia (CML). The presence of primitive progenitor cells (blast colony-forming cells, Bl-CFC) in the blood of patients with CML is reflected by their reduced capacity to bind to marrow derived stromal layers in vitro. Whereas normal bone marrow Bl-CFC bind irreversibly to cultured stromal layers (and none are found in normal blood), the Bl-CFC in CML bind transiently and then detach. The normal cell adhesion mechanism is partially sensitive to treatment with phosphatidylinositol-specific phospholipase C (Pl-PLC), indicating the participation of a phosphatidylinositol (Pl)-linked structure; however, when CML cells were treated with Pl-PLC it had no effect on progenitor binding. Two other Pl-linked structures, decay-accelerating factor (DAF) and lymphocyte function associated antigen-3 (LFA-3) were normally expressed on CD34 positive CML cells and normally susceptible to Pl-PLC treatment. The treatment of normal cells with Pl-PLC, to mimic the situation in CML, resulted in the indiscriminate and inefficient binding of Bl-CFC to stroma. Moreover, treatment of the normal cells with 5637 conditioned medium (CM), which contains haemopoietic growth factors, also reduced the binding capacity of normal Bl-CFC; 5637CM treatment did not alter the expression of DAF. It is proposed that a Pl-linked cell adhesion molecule (CAM) is deficient in CML as a consequence of the constitutive activation of ABL kinase whilst, in normal cells, CAMs attached in this manner are responsible for efficient adhesion to stroma and are regulated by growth factors.
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PMID:Deficiency of a phosphatidylinositol-anchored cell adhesion molecule influences haemopoietic progenitor binding to marrow stroma in chronic myeloid leukaemia. 171 60

Growth kinetics of bone marrow stromal layers from normal, AML, ALL and CML patients was studied. Significantly reduced time for confluency was observed in AML patients in complete remission, in CML patients in chronic phase, or CML patients after allogenic bone marrow transplantation. The functional capacity of these stromal layers did not differ: they all bound similar amounts of blast colony forming cells (BL-CFC) from normal bone marrow. The stromal layers from bone marrow transplanted patients varied in their BL-CFC binding capacity: two CML patients (10.5 and 49 months after transplantation) showed normal values, while two ALL patients (1.5 and 3 months, respectively, after transplantation) as well as one patient transplanted for CML (19.5 months after transplantation) showed significantly reduced BL-CFC binding capacity.
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PMID:Growth kinetics and blast-colony forming cell binding capacity of stromal cells in various haematological malignancies. 181 58

The effect of three nucleoside analogs, including 2-methyl-2'-deoxyadenosine (MDA), 5-amino-2'-deoxyuridine (ADU) and 2',3'-dideoxycytidine (DDC) on colony formation from unfractionated human bone marrow obtained from volunteers expressing parameters typical for normal cells (NBM) and from patients with the diagnosis of chronic myeloid leukemia (CMLBM) was observed. For the clonal growth of granulocyte-macrophage colony-forming cells (GM-CFC), a semisolid fibrin clot culture medium supplemented with 20% fetal bovine serum and 10% human placental conditioned medium was used. DDC has been shown to be at least a 10-fold more potent inhibitor for the growth of GM-CFC from CMLBM than from NBM. On the other hand, the effect of MDA and ADU on CMLBM did not differ markedly from the effect on NBM. These results suggest that DDC inhibits preferentially progenitor cells from CMLBM.
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PMID:2',3'-Dideoxycytidine preferentially inhibits in vitro growth of granulocyte-macrophage colony-forming cells from patients with chronic myeloid leukemia. 185

The unusual course of a boy with juvenile chronic myeloid leukaemia is presented. After bone marrow transplantation (BMT) from an unrelated donor followed by graft failure and subsequent stimulation by rhu GM-CFC and II-3, this patient experienced complete recovery of autologous haematopoiesis. At 17 months post-BMT the patient was off any therapy with completely normal blood counts and no signs of disease.
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PMID:Remission of juvenile chronic myeloid leukemia following graft failure of an unrelated marrow transplant and autologous recovery of marrow function promoted by GM-CSF and IL-3. 188 26

Primitive blast colony-forming cells (BI-CFC) from chronic myeloid leukemia (CML) patients are defective in their attachment to bone marrow-derived stromal cells compared with normal BI-CFC. We investigated the effect of recombinant interferon-alpha 2a (IFN-alpha) on this interaction between hematopoietic progenitor cells and bone marrow-derived stromal cells by culturing normal stromal cells with IFN-alpha (50 to 5,000 U/mL). At 50 U/mL we found that: (1) the capacity of stromal cells to bind two types of CML primitive progenitor cells (BI-CFC and long-term culture-initiating cells) was increased; and (2) the amount of sulfated glycosaminoglycans (GAGs) in the stromal layer was increased. However, sulfated GAGs were not directly involved in binding CML BI-CFC, unlike binding by normal BI-CFC, which is sulfated GAG-dependent. Neuraminidase-treated control stromal cells bound an increased number of CML BI-CFC, reproducing the effect of IFN-alpha, whereas the binding to IFN-alpha-treated stromal cells was unaffected by neuraminidase treatment. Thus, the enhanced attachment by primitive CML progenitor cells to INF-alpha-treated stromal cells might be due to changes in the neuraminic acid composition in the stromal cell layer. Our in vitro evidence may provide insights into the mechanism of action of IFN-alpha in vivo. Prolonged administration may alter the marrow microenvironment in some patients such that it can restrain the aberrant proliferation of Philadelphia chromosome (Ph)-positive stem cells while permitting Ph-negative stem cells to function normally.
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PMID:Interferon-alpha overrides the deficient adhesion of chronic myeloid leukemia primitive progenitor cells to bone marrow stromal cells. 190 52

We investigated the effects of brief (2 h) and continuous exposure to recombinant interferon-alpha (2a) (rIFN-alpha) on the proliferation of primitive (blast colony-forming cells, Bl-CFC) and committed myeloid progenitor cells (BFU-E and GM-CFC) derived from blood and bone marrow of patients with chronic myeloid leukaemia (CML) and normal subjects. In all three clonogenic assays, rIFN-alpha suppressed colony formation in a dose-dependent manner. No differences were detected in the proliferation of CML or normal Bl-CFC and GM-CFC exposed to rIFN-alpha. Erythroid colony formation by normal, but not by CML BFU-E, was inhibited by relatively low concentrations (100 U/ml) of rIFN-alpha. However, in patients whose blood or marrow contained a mixture of Philadelphia chromosome (Ph)-positive and Ph-negative BFU-E, cytogenetic analysis of individual erythroid colonies showed no differential inhibition by rIFN-alpha. We found no difference in the sensitivity to rIFN-alpha of GM-CFC from patients whose leukaemic cells expressed BCR/ABL mRNA with the b2a2 junction and that of GM-CFC from patients with the b3a2 mRNA. We conclude that (1) rIFN-alpha does not have a significant leukaemia-specific effect on the progenitor cells detected in these assays, and (2) the sensitivity of CML GM-CFC to rIFN-alpha is independent of the type of BCR/ABL message present in the cells. The clinical efficacy of rIFN-alpha could be due to selective toxicity to cells not assayed in this study, to effects on accessory cells or to alterations induced in progenitor cell/stromal cell interactions.
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PMID:The effects of interferon-alpha on the proliferation of CML progenitor cells in vitro are not related to the precise position of the M-BCR breakpoint. 200 17

A monoclonal antibody (11G7) detecting a novel antigen on human hemopoietic progenitor cells (named 11G7R = 11G7 receptor) was raised by immunization of a Balb/c mouse with the leukemic blasts of a patient suffering from chronic myelogenous leukemia blast crisis (CML-BC). The antigen is expressed on most of MHC class II bearing peripheral blood leucocytes (PBL) and on a subpopulation of bone marrow mononuclear cells (BMMNC). By FACS-sorting and colony assays, it could be demonstrated that 11G7R is expressed on myelo-monocytic and myelo-granulocytic bone marrow precursor cells (GM-CFC, G-CFC, M-CFC) but is absent from erythroid precursor cells (BFU-E) and on cells exhibiting the capacity to form mixed colonies (GEMM-CFC). Double-fluorescence analysis on BMMNC revealed that 11G7R is expressed on a subset of B-cells, myeloid cells and cells carrying the HPCA-1 antigen (CD34). It has a similar distribution pattern to the myeloid antigens CD13 and CD33. However, in contrast to these antigens, 11G7R is also expressed on the blasts of several lymphoid leukemias (4/9 B-ALL, 1/2 T-ALL) and therefore it is not restricted to the myeloid lineage.
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PMID:The monoclonal antibody 11G7 recognizes a novel differentiation antigen expressed on hemopoietic precursor cells. 203 36

During the past 12 years we studied children with unexplained chronic leukocytosis and other findings suggestive of acute or chronic myeloid leukemia (AML; CML). We used cultures in soft agar of peripheral blood for granulocyte-macrophage colony-forming cell (GM-CFC) analysis. Colonies were counted, examined morphologically and cytochemically and the findings in patients were compared with those in normal children and patients with leukemoid reactions. 2 children with confirmed CML and neurofibromatosis (NF) were similarly evaluated. Additional studies in 1 of them and in his mother who had NF, included establishment of fibroblast and blood cultures from affected skin and tumor, and stimulation of normal bone marrow-derived GM-CFC by these fibroblasts and the conditioned medium (CM) from these cultures. Growth of GM-CFC from blood cultures of CML and AML patients was significantly enhanced in comparison with blood cultures from normal donors, or patients with other myeloproliferative disorders or leukemoid reactions. Enhanced GM-CFC growth-supportive activity was obtained from CML-NF skin and tumor culture CM in comparison with CM from normal fibroblasts. These results indicate the diagnostic value of blood culture GM-CFC in juvenile CML, and its usefulness in differentiating between CML and other disorders involving leukocytosis. They suggest a possible connection between NF foci and the enhanced proliferation of blood GM-CFC in CML.
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PMID:[Blood culture for diagnosing juvenile chronic myeloid leukemia; relationship to neurofibromatosis]. 210 34

Recombinant technology-produced tumor necrosis factor alpha (rTNF-alpha) inhibits clonogenic growth of normal granulocyte-macrophage colony-forming cells (GM-CFC) when it is continuously present in the culture medium. In our studies, day 7 and day 14 GM-CFC were inhibited and showed similar response. A decrease in the number of large colonies accounted for most of the inhibition, whereas growth of small clusters was inhibited to a lesser extent. Comparable inhibition was observed when bone marrow cells were cloned at low (2.5 x 10(4)/ml) or high (10 x 10(4)/ml) cell densities. A similar degree of inhibition by rTNF-alpha was found when conditioned medium from the human placenta or a bladder carcinoma cell line was used as the source of the colony-stimulating factors (CSF). The dose-response curve of GM-CFC to rTNF-alpha was sigmoidal, the maximum inhibition (90%) occurring at approximately 100 ng/ml of rTNF-alpha. Short-term treatment of bone marrow in suspension culture for 2 hr did not affect the subsequent colony formation, suggesting that TNF had an antiproliferative rather than a direct toxic effect on normal GM-CFC. GM-CFC derived from previously untreated patients with Philadelphia chromosome-positive chronic myelogenous leukemia (CML) showed an in vitro dose response to rTNF-alpha similar to that of normal GM-CFC. Inhibition of colony formation by CML-derived GM-CFC was more pronounced than GM-CFC from normal marrows, especially at low concentrations of rTNF-alpha. An increase in the concentration of rTNF-alpha above 250 ng/ml had no further effect on colony formation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tumor necrosis factor and human hematopoiesis: II. Inhibition and mode of action on normal and chronic myelogenous leukemia-derived granulocyte-macrophage progenitor cells. 314 10

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