Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Our recent work has shown that theophylline which inhibits intracellular cyclic adenosine monophosphate (cAMP) degradation is able to kill chronic lymphocytic leukemia (CLL) cells in vitro and synergizes in vitro and in vivo with chlorambucil. In order to test the hypothesis that theophylline works through an indirect increase in cAMP, we have investigated the role of several molecules on B-CLL cells from 20 patients. Direct cAMP inducers such as dibutyryl-cAMP (db-cAMP), prostaglandin-E2 (PGE2) and forskolin induced moderate apoptosis but extremely high levels of intracellular cAMP. By contrast theophylline was highly apoptotic but did not synergize with cAMP inducers. Apoptosis was completely reversed by a cAMP antagonist when induced by PGE2 or forskolin, but was only partially antagonized when induced by theophylline. Since CD38+ CLL cells are more sensitive to apoptosis and since CD38 is enhanced by cAMP inducing agents its expression was investigated. In our hands CD38 was not induced by the above pharmacological compounds. Exogenous IL-10 has been shown to induce CLL cell death; however, apoptosis following treatment with theophylline or cAMP inducers could not be ascribed to endogenous production of IL-10. This ruled out the involvement of cytokines or of an activation or differentiation process in apoptosis. Altogether our data show that an increase in intracellular cAMP mediates apoptosis in vitro but accounts only partly for theophylline-mediated apoptosis.
Leukemia 1999 Jan
PMID:Theophylline-induced B-CLL apoptosis is partly dependent on cyclic AMP production but independent of CD38 expression and endogenous IL-10 production. 1004 64

We compared the efficiency of transduction by an HIV-1-based lentiviral vector to that by a Moloney murine leukemia virus (MLV) retroviral vector, using stringent in vitro assays of primitive, quiescent human hematopoietic progenitor cells. Each construct contained the enhanced green fluorescent protein (GFP) as a reporter gene. The lentiviral vector, but not the MLV vector, expressed GFP in nondivided CD34(+) cells (45.5% GFP+) and in CD34(+)CD38(-) cells in G0 (12.4% GFP+), 48 hr after transduction. However, GFP could also be detected short-term in CD34(+) cells transduced with a lentiviral vector that contained a mutated integrase gene. The level of stable transduction from integrated vector was determined after extended long-term bone marrow culture. Both MLV vectors and lentiviral vectors efficiently transduced cytokine-stimulated CD34(+) cells. The MLV vector did not transduce more primitive, quiescent CD34(+)CD38(-) cells (n = 8). In contrast, stable transduction of CD34(+)CD38(-) cells by the lentiviral vector was seen for over 15 weeks of extended long-term culture (9.2 +/- 5.2%, n = 7). GFP expression in clones from single CD34(+)CD38(-) cells confirmed efficient, stable lentiviral transduction in 29% of early and late-proliferating cells. In the absence of growth factors during transduction, only the lentiviral vector was able to transduce CD34(+) and CD34(+)CD38(-) cells (13.5 +/- 2.5%, n = 11 and 12.2 +/- 9.7%, n = 4, respectively). The lentiviral vector is clearly superior to the MLV vector for transduction of quiescent, primitive human hematopoietic progenitor cells and may provide therapeutically useful levels of gene transfer into human hematopoietic stem cells.
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PMID:Stable transduction of quiescent CD34(+)CD38(-) human hematopoietic cells by HIV-1-based lentiviral vectors. 1007 24

Acute myeloid leukemia arises from the clonal expansion of a malignant transformed progenitor cell. Despite intensive chemotherapy, final disease eradication is achieved by a small proportion of cases only and 50-70% of adults with AML will ultimately relapse and die from their disease. Hence residual disease below the level of morphological detectability must be assumed in clinical and morphological complete remission. CD34+/CD38- and CD34+/CD38+ subpopulations of seven patients in morphological complete remission were isolated by FACS (purity >98%) and were analyzed by conventional cytogenetics or FISH for chromosomal aberrations. In five of seven patients, clonal chromosomal abnormalities were detected in the CD34+/CD38+ subpopulation and in one patient with AML M2 (add (2)(q37)) in the most immature CD34+/CD38- stem cell compartment. One patient with AML M4Eo (inv(16),+8), showed a normal karyotype by conventional cytogenetic analysis, whereas four of 15 metaphases of the sorted CD34+/CD38+ subpopulation revealed the inversion 16. These observations underline that leukemic cells can survive intensive chemotherapy in the niche of the stem cell compartment. In some patients the sensitivity for the detection of persistent leukemic cells seems to be higher in FACS-sorted subpopulations than conventional cytogenetic analysis of the unseparated bone marrow. Immunophenotyping revealed minimal residual disease in four of the patients. Functional analysis has to be performed to investigate the leukemogenic potential of these residual cells.
Leukemia 1999 Mar
PMID:Clonal chromosomal abnormalities in the stem cell compartment of patients with acute myeloid leukemia in morphological complete remission. 1008 29

During the last two decades, major progress has been made in the technology of flow cytometry and in the availability of a large series of monoclonal antibodies against surface membrane and intracellular antigens. Flow cytometric immunophenotyping has become a diagnostic tool for the analysis of normal and malignant leukocytes and it has proven to be a reliable approach for the investigation of minimal residual disease (MRD) in leukemia patients during and after treatment. In order to standardize the flow cytometric detection of MRD in acute leukemia, a BIOMED-1 Concerted Action was initiated with the participation of six laboratories in five different European countries. This European co-operative study included the immunophenotypic characterization and enumeration of different precursor and mature B cell subpopulations in normal bone marrow (BM). The phenotypic profiles in normal B cell differentiation may form a frame of reference for the identification of aberrant phenotypes of precursor-B cell acute lymphoblastic leukemias (precursor-B-ALL) and may therefore be helpful in MRD detection. Thirty-eight normal BM samples were analyzed with five different pre-selected monoclonal antibody combinations: CD10/CD20/CD19, CD34/CD38/CD19, CD34/CD22/CD19, CD19/CD34/CD45 and TdT/CD10/CD19. Two CD19- immature subpopulations which coexpressed B cell-associated antigens were identified: CD34+/CD22+/CD19- and TdT+/CD10+/CD19-, which represented 0.11 +/- 0.09% and 0.04 +/- 0.05% of the total BM nucleated cells, respectively. These immunophenotypes may correspond to the earliest stages of B cell differentiation. In addition to these minor subpopulations, three major CD19+ B cell subpopulations were identified, representing three consecutive maturation stages; CD19dim/CD34+/TdT+/CD10bright/CD22dim/CD45dim /CD38bright/CD20- (subpopulation 1), CD19+/CD34-/TdT-/CD10+/CD22dim/CD45+/CD38bright/ CD20dim (subpopulation 2) and CD19+/CD34-/TdT-/CD10-/CD22bright/CD45bright/ CD38dim/CD20bright (subpopulation 3). The relative sizes of subpopulations 1 and 2 were found to be age related: at the age of 15 years, the phenotypic precursor-B cell profile in BM changed from the childhood 'immature' profile (large subpopulations 1 and 2/small subpopulation 3) to the adult 'mature' profile (small subpopulation 1 and 2/large subpopulation 3). When the immunophenotypically defined precursor-B cell subpopulations from normal BM samples are projected in fluorescence dot-plots, templates for the normal B cell differentiation pathways can be defined and so-called 'empty spaces' where no cell populations are located become evident. This allows discrimination between normal and malignant precursor-B cells and can therefore be used for MRD detection.
Leukemia 1999 Mar
PMID:Flow cytometric analysis of normal B cell differentiation: a frame of reference for the detection of minimal residual disease in precursor-B-ALL. 1067 56

We studied hematopoietic progenitors from fetal baboon blood, marrow, and liver at four time points (125, 140, 160, and 175 days) during the third trimester (gestation approximately 180 days) to determine if fetal baboons might be an appropriate model for in utero gene therapy of hematopoietic stem cells (HSCs). Cells were studied for expression of CD34, CD33, CD38, and HLA-DR, for progenitor content in colony-forming cell assays, and for susceptibility of CD34+ progenitors to retrovirus-mediated gene transfer. Throughout the third trimester, the frequency of CD34+ progenitors in blood and marrow appears to remain unchanged at approximately 0.6 and 5.0%, respectively. In liver, progenitors progressively decrease to undetectable levels by day 175. The proportion of fetal baboon bone marrow and liver CD34+ cells expressing CD38 and HLA-DR appears to increase with increasing fetal age, similar to changes reported for human cord blood CD34+ cells. In fetal baboon blood the proportion of CD34+ cells expressing CD33 appears to decrease with increasing gestational age, also similar to changes reported for human cord blood cells. Progenitors from human cord blood and baboon fetal tissues were similarly susceptible to transduction by the gibbon ape leukemia pseudotyped retroviral vector LAPSN(PG13) containing the genes for human placental alkaline phosphatase (AP) and the bacterial neomycin phosphotransferase (neo). Fetal baboon and human hematopoietic progenitor cells undergo similar phenotypic changes during the third trimester of fetal development and are similarly susceptible to retrovirus-mediated gene transfer. The fetal baboon may be a model in which approaches to mobilization and gene transfer into fetal HSCs can be studied.
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PMID:Gene transfer into fetal baboon hematopoietic progenitor cells. 1009 10

The feasibility of using the enhanced green fluorescent protein (EGFP) as a selectable reporter molecule of retroviral-mediated gene transfer in immature rhesus monkey and human CD34+ hematopoietic cells was examined. Retroviral transduction with the MFG-EGFP retroviral vector resulted in readily detectable EGFP expression in 27% of human and 11-35% of rhesus monkey bone marrow cells, and in 17-38% of rhesus monkey peripheral blood cells mobilized with FLT3 ligand (FL) and granulocyte colony-stimulating factor (G-CSF). In addition, we used the human CD34+ KG1A cell line as a model to study viability and growth of successfully transduced cells. Cultures of mock- and EGFP-transduced KG1A cells generated equal viable cell numbers for at least 1 month, indicating the absence of a cytotoxic effect of EGFP expression in these cells. FACS selection on the basis of EGFP and CD34 expression resulted in enriched subsets (> or = 87%) of CD34+ EGFP-negative and CD34+ EGFP-positive KG1A, rhesus monkey and human bone marrow cells, demonstrating the potential of obtaining almost pure populations of transduced immature hematopoietic cells. EGFP expression was also readily demonstrated in erythroid and granulocyte/macrophage colonies derived from the CD34+ EGFP-positive rhesus monkey and human bone marrow cells by either inverted fluorescence microscopy or flow cytometry. Using four-color flow cytometry, EGFP expression could also be demonstrated in viable and phenotypically defined immature subpopulations of the CD34+ cells, ie those expressing little or no HLA-DR (rhesus monkey) or CD38 (human) antigens at the cell surface. These results demonstrate that EGFP is a very useful marker to monitor gene transfer efficiency in phenotypically defined immature rhesus monkey and human hematopoietic cell types and to select for these cells by multicolor flow cytometry prior to transplantation.
Leukemia 1999 Apr
PMID:Efficient detection and selection of immature rhesus monkey and human CD34+ hematopoietic cells expressing the enhanced green fluorescent protein (EGFP). 1021 69

Hematopoietic stem cells (HSC) from bone marrow, peripheral blood and cord blood are important in clinical transplantation. However, their use in gene therapy protocols is still limited by a low level of transduction efficiency. In addition to the cell cycling block to retrovirus transduction, we recently demonstrated that the low level of retrovirus receptor mRNA in mouse HSC correlated with the low level of amphotropic retrovirus transduction in these cells. Similarly, we found low levels of mRNA encoding the amphotropic retrovirus receptor in human bone marrow Lin CD34+ CD38- HSC. In an effort to identify an alternative population of human HSC that might be more efficiently transduced, we assayed HSC populations from cord blood for mRNA encoding the amphotropic retrovirus receptor. High levels of receptor mRNA were present in HSC from previously cryopreserved cord blood compared with HSC from fresh bone marrow and fresh cord blood. The HSC from cryopreserved cord blood are excellent candidates for gene therapy protocols.
Leukemia 1999 Apr
PMID:Retrovirus receptor mRNA expression correlates with gene transfer efficiency in pluripotent hematopoietic stem cells. 1023 66

Philadelphia (Ph) or BCR/ABL-negative cells with immature phenotype (CD34-positive, DR-negative) can be recovered from patients with chronic myeloid leukemia (CML) in chronic phase. We used the technique described by Berardi et al (Science 1995; 267: 104-108) to select stem cells from marrow or blood of CML patients at diagnosis or during treatment with alpha-interferon. Mononuclear cells (MNC), and in some experiments CD34+ cells, were maintained for 7 days in the presence of 5-fluorouracil (5-FU), stem cell factor and interleukin-3. The number of viable cells recovered after culture was between 7.4 and 70.2 for 10(6) cells plated. These cells exhibited the following phenotype: CD34+, CD117+, CD38-, lineage-, and were able to generate cobblestone areas and secondary colonies in long-term culture (LTC), with a frequency similar to that of cells selected from normal marrow. Study by fluorescence in situ hybridization of LTC cells or secondary colonies showed no evidence of BCR/ABL rearrangement. Reverse transcriptase polymerase chain reaction studies on pooled LTC cells or secondary colonies were also negative. By contrast, LTC cells or secondary colonies obtained from CML CD34+ cells without culture in the presence of 5-FU were always positive for BCR/ABL rearrangement. Finally, 5-FU selected cells were able to engraft NOD/SCID mouse, as human cells were detected in blood and marrow 10 weeks post transplantation, which were BCR/ABL negative by RT-PCR. This method of culture makes it possible to select constantly BCR/ABL-negative cells with capacities of development in LTC assay and of NOD/SCID mouse engraftment.
Leukemia 1999 Jul
PMID:Selection of BCR/ABL-negative stem cells from marrow or blood of patients with chronic myeloid leukemia. 1040 Apr 13

Important functional differences exist between primitive CD34++ CD38- hematopoietic progenitor cells derived from human fetal liver (FL) and adult bone marrow (ABM). FL progenitors are known to have higher proliferative capacities and lower cytokine requirements than their ABM counterparts. In this study, we isolated FL and ABM CD34++ CD38- cells and used a two-stage culture system to investigate the effects of transforming growth factor-beta (TGF-beta) and blocking anti-TGF-beta antibodies (anti-TGF-beta) on these cells. First, we demonstrate that FL progenitors are significantly less sensitive to the inhibitory effects of TGF-beta than ABM cells. Second, whereas ABM cells are significantly stimulated by anti-TGF-beta, only very limited effects are seen on FL cells. Third, we show that the effect of anti-TGF-beta is mainly situated at the level of the initial cell cycles of very primitive progenitor cells with a high proliferation potential. Fourth, we demonstrate that blocking the effects of endogenous TGF-beta reduces the growth factor requirements of ABM cells in order to proliferate and differentiate. Based on these data, we hypothesize that at least part of the functional differences that exist between adult and fetal stem cells can be accounted for by a developmental different responsiveness to TGF-beta.
Leukemia 1999 Aug
PMID:Developmentally regulated responsiveness to transforming growth factor-beta is correlated with functional differences between human adult and fetal primitive hematopoietic progenitor cells. 1045 Jul 56

CD34+ cells isolated from human umbilical cord blood (HUCB) are thought to have potential in clinical applications such as transplantation and gene therapy. Recently, we developed a xenogenic coculture system involving HUCB-CD34+ cells and murine bone marrow stromal cells, HESS-5 cells, in combination with human interleukin-3 and stem cell factor. Under these xenogenic coculture conditions, the numbers of CD34high+ cells and primitive progenitor cells, such as CD34high+ CD38(low/-) cells and high proliferative potential colony-forming cells (HPP-CFCs), increased dramatically by a factor of 102.1, 66.5 and 104.9, respectively. In the present study, we used a secondary culture of B progenitor cells and long-term culture (LTC)-initiating cells to characterize and compare the progenitor capability of re-isolated CD34high+ CD38(low/-) cells, which have been identified as one of the most primitive progenitor cells, with that of freshly isolated CD34high+ CD38(low/-) cells. Compared with freshly isolated CD34high+ CD38(low/-) cells, the re-isolated CD34high+ CD38(low/-) cells were equally as capable of proliferating and differentiating into myeloid and B progenitor cells. No significant differences were observed in the frequency of LTC-initiating cells in the re-isolated CD34high+ CD38(low/-) cells compared with that in freshly isolated CD34high+ CD38(low/-) cells. Furthermore, the re-isolated CD34high+ CD38(low/-) cells were capable of long-term reconstitution and multiple differentiation in non-obese diabetic mice with severe combined immunodeficiency disease (NOD/SCID mice). The results demonstrate that this xenogenic coculture system can be used for successful in vitro expansion of HUCB-progenitor cells that possess the capability for both long-term hematopoiesis as well as multipotent differentiation into myeloid and lymphoid cells both in vivo and in vitro.
Leukemia 1999 Sep
PMID:CD34high+ CD38(low/-) cells generated in a xenogenic coculture system are capable of both long-term hematopoiesis and multiple differentiation. 1048 93


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