Gene/Protein Disease Symptom Drug Enzyme Compound
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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 describe for the first time a case report documenting a chronic myelogenous leukemia (CML) patient who developed a blast crisis of natural killer (NK) lymphocytes. Many of the blasts exhibited large granular lymphocytic (LGL) morphology. Single parameter immunophenotyping results determined that the granulated as well as the agranulated blast cells were NK lymphocytes (CD45, NKH1, CD2, LEU 17, and CD16 positive; CD3, CD8, and LEU 7 negative). Dual parameter flow cytometric testing also determined that some of the blasts expressed the CD11b and CD11c markers as reported for some types of NK lymphocytes. Approximately 10% of the cells were in the S phase of the cell cycle as determined by a modified Vindelov DNA content analysis test and may theoretically reflect some of those cells expressing CD11b and CD11c. The cells did not express in vitro NK lymphocyte functional activity against a K562 target and therefore similar to other reported cases of presumably immature NK lymphocytic leukemias. The NK lymphocyte blast crisis was successfully treated with vincristine and prednisone. The patient's disease eventually relapsed and transformed to a progenitor stem cell before she died (CD45, 13, CD38, and CD34 positive). The flow cytometric immunophenotyping results contributed significantly as an important adjunct in determining the appropriate diagnosis, helping to select the type of therapy, and monitoring the patient with this unusual type of blast crisis.
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PMID:Natural killer lymphocyte blast crisis of chronic myelogenous leukemia. 281 23

In this study we have investigated the relationship between the labelling index of plasma cells, the expression of CD38 positive lymphocytes in the peripheral blood, and light chain isotype suppression. This study confirms the relationship between plateau-phase disease and light chain isotype suppression (LCIS) and documents an inverse relationship between LCIS and CD38 positive lymphocytes (.001 less than P less than .01), which is similar to the relationship we have described with the expression of CD10 positive lymphocytes. PCA-1 is rarely expressed in the peripheral blood of patients with myeloma and does not fulfill a role as a marker of active vs. stable disease. There is no relationship between the labelling index of plasma cells and LCIS, because many patients can enter a stage of progressive disease and yet have a labelling index of less than 1% at that time, although a labelling index less than 1% is present in the majority of patients with LCIS. beta-2-microglobulin (beta 2M) also fails to differentiate these two phases of disease in myeloma and does not have a relationship with LCIS, CD38 expression, or CD10 expression. These data suggest that myeloma, like chronic granulocytic leukemia (CGL), can be considered as having two phases of disease: a stable or chronic phase disease, as identified by the presence of LCIS, the absence of CD10 and CD38 positive lymphocytes in the peripheral blood, and a low labelling index, and progressive disease, which is associated with the loss of LCIS and of, CD10 and CD38 positive lymphocytes in the peripheral blood and a high labelling index, although in many cases of progressive disease, the labelling index may also be low. beta 2M does not differentiate between these states.
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PMID:Multiple myeloma: relationship between light chain isotype suppression, labelling index of plasma cells, and CD38 expression on peripheral blood lymphocytes. 305 44

Peripheral blood cells from a female patient with Ph1-positive chronic myelogenous leukemia (CML) in blast crisis were serially transplanted in BALB/c nude mice for 16 passages. This in vivo cell line, designated CML-N-1, had Ph1 chromosome abnormality and BCR gene rearrangement. The cells expressed CD11b, CD13, CD33, CD34, CD38, and HLA-DR antigens until the 11th passage and subcutaneous tumors produced by these passages were composed of admixtures of immature and maturing cells that differentiated to basophils when cultured in vitro. From the 12th passage on, the tumors became composed mainly of immature cells expressing CD13, CD34, and HLA-DR, and no longer differentiated to basophils even upon in vitro culture. In contrast to the vigorous proliferation in vivo, CML-N-1 cells from any passage failed to proliferate in vitro under standard liquid culture conditions with or without growth factors, such as granulocyte-macrophage colony-stimulating factor, granulocyte colony-stimulating factor, monocyte colony-stimulating factor, interleukin 3, interleukin 6 and stem cell factor. However, a continuously growing cell line, designated CML-C-1, was established by culturing CML-N-1 cells on feeder layers of mouse bone marrow stromal cells. This mouse bone marrow stromal cell-dependent cell line showed immature cell morphology and expressed early myeloid phenotype positive for CD13, CD34, and HLA-DR. These results indicate that mouse bone marrow stromal cells provide a certain growth factor(s) active on human leukemia cells.
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PMID:Direct transplantation of chronic myelogenous leukemia cells into nude mice and establishment of a leukemic stem cell (Ph1+, CD34+) line dependent on mouse bone marrow stromal cells in vitro. 754 Jun 8

Fluorescence in situ hybridization (FISH) was used to discriminate between benign and malignant cells in sorted populations of chronic myelogenous leukemia (CML) marrow. FISH has the advantage of allowing for a cell by cell analysis of the breakpoint cluster region (BCR) gene rearrangement immediately after flow sorting in nondividing G0/G1 cells that are potentially transcriptionally inactive. We initially selected CD34+ cells with very low expression of the activation antigen CD38 as a candidate phenotype for an immature and hypothetically more benign cell population, but found no enrichment for Ph negativity in that subtype. In five CML samples, 55% +/- 3.3% (mean +/- SE) of CD34+/CD38hi cells had the BCR gene rearrangement, similar to 57% +/- 3.7% seen in the CD34+/CD38lo population. In contrast, subsequent experiments (n = 4) determined that the CD34+/HLA-DRlo population in CML marrow does contain an increased proportion of benign cells: 15% +/- 1% of the CD34+/DRlo cells were BCR rearranged, compared with 52% +/- 5.8% of the CD34+/DRhi cells (P = .001). Our results indicate that benign progenitors in CML are enriched within the CD34+ cells with low DR antigen expression, but not low CD38 expression. One possible interpretation of these observations is that low CD38 antigen expression is not as useful as low HLA-DR expression for isolating immature cells.
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PMID:Benign marrow progenitors are enriched in the CD34+/HLA-DRlo population but not in the CD34+/CD38lo population in chronic myeloid leukemia: an analysis using interphase fluorescence in situ hybridization. 754 74

We studied the sequence of acquisition of CD33, CD38 and HLA-DR antigens on CD34+ cells from marrow and blood of Ph-chromosome positive CML patients and normal marrow. We examined the Ph status of the various CML cell populations. The mean proportions of normal and CML CD34+ cells expressing CD33 and CD38 were not significantly different. However, a significantly greater proportion of CML CD34+ cells expressed HLA-DR antigens compared with normal CD34+ cells and the level of HLA-DR expression per CML cell was abnormally high. When the sequence of acquisition of these antigens on normal and CML CD34+ cells was evaluated using 3-colour fluorescence analysis, the results suggested that HLA-DR was expressed earlier than CD38 or CD33 and these findings were confirmed by following the acquisition of CD38 and CD34+/DR+/CD38-subpopulation during liquid culture. We performed cytogenetic studies on CD34+ subpopulations in 6 cases. In 4 cases there were some Ph-negative metaphases detectable in the CD34+/DR-subpopulation (range 12.5 to 60%). In the CD34+/DR+ fractions, however, all 6 patients had only Ph-positive metaphases and only 1/5 patients had detectable Ph-negative metaphases in the CD34+/CD38-subpopulation. We conclude that expression of HLA-DR antigens may precede the expression of CD38 on CD34+ cells during normal stem cell differentiation. In CML DR may be expressed aberrantly and Ph-negative cells are found predominantly in the DR negative subpopulation.
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PMID:Phenotypic characterization of normal and CML CD34-positive cells: only the most primitive CML progenitors include Ph-neg cells. 769 7

In 72 patients with blood malignancies (leukemias), the expression and distribution of the "B-lineage" antigen CD38, was analyzed, individually and in combination with CD19, CD10, HLA-DR, CD13, CD14, CD33, CDw65, CD2 and CD7. The expression of CD38 on the surface of leukemic cells was totally different from its expression on normal hematopoietic cells. Its positivity in myeloid malignancies was as follows: In patients with acute myeloid leukemia in 21/28 cases-75% (probability of expression 0.68 +/- 0.2, p < 0.05) and in patients with chronic myeloid leukemia in 4/6 cases-66%. In lymphoproliferative malignancies the CD38 antigen was expressed as follows: In patients with acute non-T lymphoblastic leukemia in 12/16 cases-75% (probability of expression 0.7 +/- 0.2, p < 0.05) and in patients with chronic B lymphocytic leukemia in 6/8 cases-75%. CD38 was also found positive in patients with acute mixed lineage leukemia.
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PMID:Immunophenotypic significance of the "lymphoid" CD38 antigen in myeloid blood malignancies. 828 67

In patients with chronic myeloid leukemia (CML), the leukemic (BCR-ABL+/Ph+) clone typically includes cells belonging to all of the myeloid lineages and frequently some B cells. From such observations it has been inferred that the initial BCR-ABL gene rearrangement event occurs in a pluripotent hematopoietic stem cell and that the clone subsequently generated is maintained by a subpopulation of neoplastic, BCR-ABL-expressing cells that retain at least some of the defining properties of normal hematopoietic stem cells. To test this hypothesis directly, we isolated various subpopulations of CD34+ cells from fresh or cryopreserved samples of peripheral blood from 5 CML patients with high white blood cell counts, 4 of which were selected because of their exclusive content of Ph+ progenitors (both colony-forming cells and long-term culture-initiating cells [LTC-IC]). Cells in each of the CD34+ subpopulations isolated were examined for the presence of BCR-ABL mRNA using a reverse transcriptase-polymerase chain reaction technique that reproducibly gave a positive signal from single K562 cells. BCR-ABL mRNA was detected in 117 of 147 samples (80%) in which actin mRNA was demonstrable. This included 60% to 90% of a large number of individually analyzed CD34+ cells including 46 single CD34+CD71-CD38- cells and 27 single CD34+CD71+CD38+ cells from 3 patients. In 2 of these cases, the same populations also contained a very high frequency of Ph+ LTC-IC. Our findings demonstrate BCR-ABL gene expression in neoplastic cells with functional as well as surface marker characteristics of very primitive normal hematopoietic cells. This implicates the BCR-ABL gene product directly in the acquisition by these cells of properties that alter their interactions with the microenvironment and deregulate their proliferation control.
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PMID:BCR-ABL expression in different subpopulations of functionally characterized Ph+ CD34+ cells from patients with chronic myeloid leukemia. 878 37

Elevated numbers of primitive Philadelphia chromosome-positive (Ph+) progenitors, including long-term culture-initiating cells (LTC-IC) as well as colony-forming cells (CFC), have been previously described in the blood of patients with chronic myeloid leukemia (CML) in chronic phase with high white blood cell counts. In the present study, which focused primarily on an analysis of circulating progenitors present in such patients at diagnosis, we discovered the frequent and occasionally exclusive presence of circulating normal (Ph-) LTC-IC, often at levels above those seen for LTC-IC in the blood of normal individuals. The presence of detectable numbers of circulating Ph- LTC-IC was independent of the fact that the same peripheral blood samples also contained elevated numbers of predominantly or exclusively Ph+ CFC. Interestingly, both the Ph+ and Ph- LTC-IC in these samples were CD34+CD71- and variably CD38- and Thy-1+, as previously documented for LTC-IC in normal marrow. Thus, neither CD38 nor Thy-1 expression was useful for discriminating between Ph+ and Ph- LTC-IC in mixed populations. Nevertheless, an association of these phenotypes with LTC-IC function did allow highly enriched (> 5% pure) suspensions of either Ph+ or Ph- LTC-IC to be obtained from selected samples of CML blood in which the initial LTC-IC population was either predominantly Ph+ or Ph-, respectively. These findings suggest that the mechanisms causing mobilization of leukemic stem cells in untreated CML patients may affect their normal counterparts. They also indicate a possible new source of autologous cells for the support of intensive therapy of CML patients. Finally, they provide a method for obtaining the most highly purified populations of Ph+ LTC-IC described to date. This method should be useful for further analyses of the molecular activities of these very primitive neoplastic cells.
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PMID:Characterization of primitive subpopulations of normal and leukemic cells present in the blood of patients with newly diagnosed as well as established chronic myeloid leukemia. 882 36

Flow cytometry allows a rapid and accurate analysis of the cells in serous fluids. The aim of this study was to evaluate the use of flow cytometric analysis in malignant pleural effusions. 26 patients (13 females, 13 males; mean age 52 +/- 19 years; range 16-82) were included in the study. 15 had malignant pleural effusions (7 adenocarcinoma, 2 lymphoma, 2 chronic myeloid leukemia, 1 ovarian carcinoma, 1 small cell lung carcinoma, 1 squamous cell lung carcinoma and empyema, and 1 malignant mesothelioma) with positive cytology. 2 had benign effusions associated with malignancy (1 squamous cell lung carcinoma and congestive heart failure, and 1 neuroblastoma and hypoproteinemia). 9 had benign effusions (3 tuberculosis, 1 congestive heart failure, 3 parapneumonic pleural effusion, 1 benign mesothelioma, and 1 pulmonary embolism). Flow cytometric analysis of pleural effusions revealed an increased DNA index in malignant effusions: 1.32 +/- 0.44 versus 0.88 +/- 0.23 in benign effusions (p < 0.04). The cell cycle distribution of cells such as G1/G0 and S in malignant effusions did not differ from that of benign pleural effusions; however G2+M increased significantly in malignant effusions (p < 0.03). Using analysis of mononuclear immunophenotyping, CD3+, CD4+, and CD8+ cells did not show any significant difference between the two groups. The lymphocyte activation marker CD38 was positive in 57.6 +/- 11.5% of malignant fluid cells and 38.5 +/- 6.2% of benign fluid cells (p < 0.04). The mean carcinoembryonic antigen levels in malignant and benign pleural effusions were 98.7 +/- 157.3 and 0.9 +/- 1.2 ng/ml, respectively (p < 0.03). In conclusion, the results of our study indicate that finding cells with an abnormal DNA content strongly supports the diagnosis of malignant pleural effusions. Additionally, mononuclear cell phenotypes have to be taken into consideration for malignant pleural effusions, particularly activated T cells. We recommend that flow cytometry should be performed if the cytology is equivocal.
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PMID:Analysis of pleural effusions using flow cytometry. 883 88

Stroma-supported long-term cultures (LTC) of chronic myeloid leukemia (CML) progenitor cells have previously revealed differences between normal and malignant stem cells with respect to their maintenance and adhesive properties. Using the cobblestone area forming cell (CAFC) assay and LTC, we have examined the frequencies of stem cell subsets, their ability for long-term progenitor cell production and the relative frequencies of malignant and normal progenitor cells before and after a 5-6 week culture period. Cells were obtained from bone marrow (BM) and peripheral blood (PB) samples of patients in chronic phase CML. CD34-enriched cells were sorted by FACS on the basis of CD34 and CD38 expression and overlaid on confluent stromal layers of murine FBMD-1 cells. The presence of the bcr/abl chimeric gene was detected by fluorescent in situ hybridization (FISH) using differently labelled bcr and abl-specific probes. In the CD34pos/CD38pos subset of CML-PB, representing 64-95% of CD34pos cells, CAFC frequencies at week 1 (wk-1) were much higher than those of CAFC wk-5 (1.10(4)/10(5) cells vs 1.10(3)/10(5)). In contrast, in the CD34pos/CD38neg subset, representing 2-3% of CD34pos cells, the frequency of CAFC wk-1 was only 1.10(2)/10(5) cells, but a high CAFC frequency (10(3)-10(4)/10(5)) was detected after 5 weeks of culture. CAFC frequencies in the CD34pos subset obtained from CML-BM were 10- to 100-fold lower than those from CML-PB, but displayed a similar distribution over CD38pos, CD38dim and CD38neg cells. Analysis of the percentage of Philadelphia chromosome-positive (Ph+) and Ph- cells by FISH on freshly sorted cells revealed that normal cells were not enriched in any CD34pos/CD38 subset. In addition, Ph- as well as Ph+ cells were maintained with similar efficiency throughout 5 week LTC. These results demonstrate that immature normal and malignant stem cells in CML have a comparable distribution on the basis of CD34 and CD38 expression. The ability to maintain immature normal and malignant hemopoietic cells with similar efficiency in LTC provides a model enabling a direct comparison of differential effects of cytokines or drugs on either normal or malignant immature stem cells in CML.
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PMID:Efficient long-term maintenance of chronic myeloid leukemic cobblestone area forming cells on a murine stromal cell line. 900 28


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