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)

Leukaemia inhibitory factor (LIF) acts on the growth and differentiation of haematopoietic cells. By using a specific enzyme-linked immunosorbent assay for human LIF, we demonstrate that human bone marrow stromal cells produce LIF. LIF synthesis is enhanced in a dose-dependent manner after stimulation with lipopolysaccharide (LPS) and phorbol 12-myristate 13-acetate (PMAS). LIF production in response to PMA is PKC-dependent since the two PKC inhibitors sphingosine and staurosporine markedly diminished it. Interleukin 1alpha (IL-1alpha), IL-1beta, IL-3, IL-6, IL-8, tumour necrosis factor (TNF-alpha) and SCF (both at 10 ng/ml) stimulate LIF production. By contrast macrophage colony-stimulating factor (M-CSF), granulocyte (G)-CSF, GM-CSF, basic fibroblast growth factor (bFGF), platelet-activating factor (PAF), protaglandin E2 (PGE2), leukotriene B4 (LTB4), and leukotriene C4 (LTC4) did not. These results suggest that bone marrow stromal cells might represent a major source for the cytokine-regulated local production of LIF inside human bone marrow.
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PMID:Spontaneous and inducible production of leukaemia inhibitory factor by human bone marrow stromal cells. 934 7

CD34+ and CD34+ DR- cells from the bone marrow (BM) of chronic-phase chronic myelogenous leukaemia (CML) patients at diagnosis were tested for their colony-forming ability in response to early and intermediate-late colony stimulating factors (CSFs). Molecular analysis revealed that 55.6+/-9% SD of CD 34+ DR- colonies, in which actin and ABL mRNA were detectable, expressed the product of the BCR-ABL gene. The percentage and the clonogenic efficiency of CML DR- cells were significantly lower than those of comparable DR- cells from normal donors. However, clonogenic assays using recombinant human CSFs demonstrated a remarkable proliferation of CML cells when stimulated by SCF, IL-11 and IL-3, used as single factors in the presence of erythropoietin (EPO) and was almost entirely due to erythroid progenitors. Conversely, optimal stimulation of CD34 +DR- cells from normal donors required co-incubation with three or more CSFs. Stroma-noncontact long-term cultures were then established in the presence of exogenous CSFs and human irradiated allogeneic stromal layers or the murine stromal cell line M2-10B4, engineered to produce G-CSF and IL-3. In these cultures the combination of SCF and IL-3 induced a 25.4 +/- 5 SD, 40 +/- 6 SD and 20.5 +/- 6 SD fold increase of colony-forming unit cells (CFU-C), at weeks 2, 4 and 5, respectively. At the same time-points the number of primitive long-term culture initiating cells (LTC-IC) showed a 4 +/- 2 SD, 3.3 +/- 1.5 SD and 2.3 +/-1 SD fold increase compared to baseline values. BCR-ABL mRNA analysis of single colonies demonstrated that 27 +/- 9% SD and 7 +/- 3% SD CFU-C at weeks 4 and 5, respectively, expressed the fusion gene, whereas leukaemic LTC-IC disappeared from the culture by week 2. These results suggest that leukaemic CD34+ DR- cells have a different pattern of response to CSFs than normal cells. In addition, we established culture conditions which allow selective expansion of benign haemopoietic cells coexisting with leukaemic progenitors.
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PMID:Selective expansion of normal haemopoietic progenitors from chronic myelogenous leukaemia marrow. 957 92

Ex vivo expanded bone marrow CD34+DR- cells could offer a graft devoid of malignant cells able to promptly reconstitute hemopoiesis after transplant. We investigated the specific expansion requirements of this subpopulation compared to the more mature CD34+ and CD34+DR+ populations. The role of stromal factors was assessed by comparing the expansion obtained when the cells were cultured in (1) long-term bone marrow culture (LTBMC) medium conditioned by an irradiated human BM stroma (CM), (2) medium supplemented with 15% FBS (FBSM) and (3) non-conditioned LTBMC medium (LTM) for 21 days. The effect of the addition of G-CSF (G) and/or of MIP-1alpha (M) to a combination of IL-3, SCF, IL-6 and IL-11 (3, S, 6, 11) was analyzed. Compared to CD34+DR- cells, CD34+ and CD34+DR+ cells gave rise to a similar number of viable cells and to a lower progenitor expansion. The expansion potential of CD34+ and CD34+DR+ cells was equivalent in CM and in FBSM except for both the emergence of CD61 + megakaryocytic cells and LTC-IC maintenance which were improved by culture in CM. In contrast, expansion from CD34+DR- cells was enhanced by CM for all the parameters tested. Compared to FBSM, CM induced a higher level of CFU-GM and BFU-E expansion and allowed the emergence of CD61+ cells. HPP-CFC were maintained or expanded in CM but decreased in FBSM. Compared to input, the number of LTC-IC remaining after 21 days of CD34+DR- expansion culture was strongly decreased in FBSM and variably maintained or expanded in CM. Comparison with LTM indicated that stroma conditioning is responsible for this effect. G-CSF significantly improved CFU-GM and HPP-CFC expansion from CD34+DR- cells without being detrimental to the LTC-IC pool. The growth of CD61+ cells was significantly enhanced by G-CSF in CM. Addition of MIP-1alpha had no significant effect either on progenitor expansion or on LTC-IC, regardless of culture medium. We conclude that factors present in stroma- conditioned medium are necessary to support the expansion of the whole spectrum of hematopoietic cells from CD34+DR- cells and to support the expansion of cell subsets from CD34+ and CD34+DR+.
Leukemia 1998 May
PMID:Stromal factors support the expansion of the whole hemopoietic spectrum from bone marrow CD34+DR- cells and of some hemopoietic subsets from CD34+ and CD34+DR+ cells. 959 72

Factors that may improve retroviral transduction of primitive human hematopoietic cells were studied using MFG-based vectors containing a LacZ gene and produced either by a murine (psi-Crip) or a human (Tasaf) cell line. Cord blood (CB) or bone marrow (BM) CD34+ cells were stimulated and transduced in the presence of three cytokines (interleukin 3 [IL-3], IL-6, and stem cell factor [SCF; c-Kit Ligand]). In the supernatant infection protocol, hematopoietic progenitor cells as measured by X-Gal staining of colony-forming unit cells (CFU-Cs) were transduced more effectively with Tasaf (20%) than with psi-Crip (8%). In contrast, there was no difference between these two cell lines in a coculture protocol. However, gene transfer into more primitive CD34+CD38- subsets and in LTC-IC-derived colonies was low. The use of a large number of cytokines including FLT3-L and PEG-rhMGDF increased the transduction efficiency into CD34+CD38(-)-derived CFU-Cs (35% by PCR) or LTC-ICs (10%). A virus pseudotyped with gibbon ape leukemia virus (GALV) envelope further improved gene transfer to 60 and 48% for LacZ+ CFU-C- and LTC-IC-derived colonies, respectively. These conditions of transduction allowed multilineage engraftment of primitive cord blood cells in NOD-SCID mice. Moreover, 10% (at least) of the human hematopoietic cells recovered from the marrow of these immunodeficient animals were transduced. These data suggest that the efficiency of transduction of human hematopoietic primitive cells can be significantly improved by judicious combinations of recombinant cytokines and high retroviral titers.
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PMID:Retrovirus-mediated gene transfer into human CD34+38low primitive cells capable of reconstituting long-term cultures in vitro and nonobese diabetic-severe combined immunodeficiency mice in vivo. 968 21

We investigated the ability of endothelial cells (EC) to support hematopoiesis in contact and non-contact cocultures with isolated CD34+ or CD34/CD38low cells. In the absence of exogenous cytokines, umbilical vein EC (HUVEC) efficiently support proliferation of hematopoietic cells and generation of colony-forming cells (CFC). Cytokines (IL-6, LIF, G-CSF, GM-CSF, M-CSF, but not IL-1, IL-3, IL-7) were detected in HUVEC coculture supernatants. Neutralization of these cytokines profoundly inhibited the ability of EC supernatants to support the differentiation of hematopoietic progenitors and led to an accumulation of immature cells. Contact cocultures were significantly more efficient than non-contact cocultures. The expanded cell population essentially belonged to the myeloid and monocytic lineages. Contact cocultures generated cells expressing the CD61 or CD41 antigens. Interleukin-1alpha (IL-1alpha) augmented EC capacity to support hematopoiesis, this property resulting from the upregulation of cytokine expression. Glucocorticoids (GC) reduced this capacity by downregulating the biosynthesis of cytokines by EC and not by a direct effect on the progenitor cells. EC from the bone marrow microvasculature (BMEC) support the proliferation and the differentiation of hematopoietic progenitors. Synergistic increase in progenitor cells expansion and generation of CFC occurred when EC cocultures were added with exogenous cytokines. Supernatants of IL-1alpha-stimulated EC potentiated the effects of an association of IL-1, IL-3, IL-6, LIF, SCF, Flt3-ligand, TPO, G-CSF, GM-CSF, M-CSF and IL-11 on the proliferation of hematopoietic progenitors suggesting that EC may produce other soluble growth factors potentiating the action of the above set of cytokines.
Leukemia 1998 Aug
PMID:Endothelial cell support of hematopoiesis is differentially altered by IL-1 and glucocorticoids. 969 75

We have established a murine model to compare the antileukemic effect of PBPC grafts obtained after treatment with SCF + G-CSF and G-CSF alone. C57/BL6, DBA and Balb/c mice were splenectomized and injected with optimal doses of rhG-CSF (250 microg/kg/day s.c.) or rrSCF (100 microg/kg/day s.c.) or with a combination thereof. On day 5, we determined the hematopoietic potential (number of CD34+ cells, CFUs, total CFC, CFU-gm), the proportion of lymphoid (T, NK and B cells) and myeloid components and graft-versus-leukemia activity after allogeneic and syngeneic PBPCT and BMT in Balb/c mice bearing a B-lymphoblastic leukemia cell line (A20). The absolute number of progenitor cells increased two-fold after administering a combination of G-CSF and SCF as compared to G-CSF alone (1500 vs 940 CD34+ cells/microl; 190 vs 70 total CFC/microl; 150 vs 50 CFU-gm/microl and 6600 vs 3000 CFUs/ml). Although no differences could be detected in the cellular composition, especially in the number of T cells, PBPC grafts mobilized by the combination of G-CSF + SCF demonstrated significantly higher antileukemic activity compared to G-CSF alone (94% vs 71% freedom from leukemia, P < 0.05). Because the incidence of lethal GVHD was similar in both groups, improved GVL activity resulted in superior overall survival. Our data suggest that the higher number of progenitor cells can be harvested after G-CSF + SCF and that grafts mobilized by G-CSF + SCF exert significantly enhanced antileukemic activity compared to those harvested after treatment with G-CSF alone.
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PMID:Superior antileukemic activity of murine peripheral blood progenitor cell (PBPC) grafts mobilized by G-CSF and stem cell factor (SCF) as compared to G-CSF alone. 971 86

To investigate the mechanisms behind the leukaemic expansion of chronic myelogenous leukaemia (CML), we examined the cell cycle status and activation kinetics of purified subpopulations of CD34+ cells from normal and CML bone marrow (BM). Propidium iodide staining was used to assess cell cycle status of fresh cells or those stimulated with cytokines. Although the cell cycle status of fresh low-density cells from CML and normal BM was similar, a larger percentage of CML CD34+ cells were cycling than those from normal BM. The HLA-DR compartment of CML CD34+ cells, a fraction enriched for normal, non-leukaemic progenitors, contained a higher percentage of quiescent cells than the CD34+ HLA-DR+ fraction. When the activation of CD34+ cells was examined in response to SCF or IL-3 alone, or SCF+IL-3+IL-6, CML CD34+ cells exited GO/G1 more rapidly than normal CD34+ cells. Interestingly, although normal BM CD34+ cells failed to cycle in response to IL-6 alone, or in the absence of exogenous cytokines, 30% of CML cells cycled under these conditions. No differences in the degree of apoptosis were documented among CML and normal CD34+ cells in these cultures. These data suggest that enhanced cell cycle activation of CML CD34+ cells, by either autocrine stimuli or via enhanced sensitivity to exogenous stimuli, may be partially responsible for the pronounced cellular expansion characteristic of CML.
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PMID:Chronic myelogenous leukaemia CD34+ cells exit G0/G1 phases of cell cycle more rapidly than normal marrow CD34+ cells. 972 4

FLT3 ligand (FL) acting through its tyrosine kinase receptor FLT3 has pleiotropic and potent effects on hematopoietic cells. The well-described involvement of this ligand-receptor pair in physiological hematopoiesis raised the question whether FL and FLT3 also play a role in the pathobiology of leukemia. Following the early discovery of high receptor expression by myeloid leukemia cells, several investigators have focused their attention on these cells, both primary acute myeloid leukemia (AML) cells and continuous human myeloid leukemia cell lines. Regardless of the morphological FAB subtype, the vast majority of AML cases were FLT3-positive both at the mRNA and protein level; among the myeloid cell lines, predominantly the monocytic and myelocytic cell lines were FLT3-positive whereas the erythrocytic and megakaryocytic cell lines were FLT3-negative. Virtually all cell lines studied expressed FL transcripts; the finding that some cell lines displayed both ligand and receptor indicates the possibility of autocrine, intracrine or paracrine stimulatory loops. In vitro growth assays showed that FL caused a proliferative response in a high percentage of AML cases. Only constitutively growth factor-dependent myelocytic cell lines increased their proliferation upon incubation with FL whereas all growth factor-independent cell lines were refractory to FL stimulation. Combinations of FL with various cytokines (e.g. G-CSF, GM-CSF, IL-3, M-CSF, PIXY-321, SCF) had synergistic or additive mitogenic effects. Finally, FL had significant anti-apoptotic, survival-promoting effects on primary AML cells and myeloid cell lines under serum-free culture conditions. On the strength of the above findings, it can be concluded that the FL-FLT3 signaling system may play a certain, albeit probably not causal role in the development of human leukemias. Dissection of the exact molecular pathways that lead to proliferation and/or anti-apoptosis of myeloid leukemia cells as well as the detailed elucidation of the possible contribution of the FL-FLT3 genes to leukemogenesis remain future challenges.
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PMID:Effects of FLT3 ligand on proliferation and survival of myeloid leukemia cells. 1019 24

G proteins play an important role in signal transduction from cytokine receptors to intracellular effectors via different pathways, eg involving tyrosine kinases. In our previous studies, we demonstrated that mRNA expression of the hematopoiesis-specific G protein alpha-subunit G alpha16 is a sensitive marker indicating the appearance of early myeloid and lymphoid progenitors. This study was designed to investigate cytokine effects on hematopoiesis in vivo and in vitro as reflected by G alpha16 expression and sensitivity to the hemoregulatory peptide (pEEDCK)2 which harbors a structural homology to the effector domain of G alpha16. Investigations on blood samples from lymphoma patients undergoing salvage therapy with different cytokine support showed that monitoring of the expression of G alpha16 mRNA which appears to play a role in cytokine signalling via tyrosine kinases was a valuable complementation to CD34 screening for analyzing hematopoietic recovery after chemotherapy. We demonstrated that in contrast to CD34 which is only expressed in quiescent cells, G alpha16 transcription occurs independently of cell cycle state. In vitro, we could show that G alpha16 was also a valuable marker for confirming the immature state of ex vivo expanded blood stem cells from patients. A further part of the study was focused on the response of G alpha16 and CD34 expressing cells to the granulocyte-derived hemoregulatory peptide (pyroGlu-Glu-Asp-Cys-Lys)2 = (pEEDCK)2 which harbors a G alpha16-homologous sequence motif. Results obtained from in vitro assays which involved estimation of colony outgrowth from CD34-positive cells showed that the effect of (pEEDCK)2 on CD34 cells enhanced the effect of IL-3 or SCF. These data indicate that G alpha16 may co-operate with (pEEDCK)2 in triggering the cytokine response of immature hematopoietic cells.
Leukemia 1999 Apr
PMID:In vivo and in vitro effects of cytokines and the hemoregulatory peptide dimer (pEEDCK)2 (pyroGlu-Glu-Asp-Cys-Lys)2 on G alpha16-positive hematopoiesis. 1021 66

The efficient transfer and sustained expression of a transgene in human hematopoietic cells with in vivo repopulating potential would provide a significant advancement in the development of protocols for the treatment of hematopoietic diseases. Recent advances in the ability to purify and culture hematopoietic cells with the CD34+CD38- phenotype and with in vivo repopulating potential from human umbilical cord blood provide a direct means of testing the ability of transfer vectors to transduce these cells. Here we demonstrate the efficient transduction and expression of enhanced green fluorescent protein (EGFP) in human umbilical cord-derived CD34+CD38- cells, without prestimulation, using a lentivirus-based gene transfer system. Transduced CD34+CD38- cells cultured in serum-free medium supplemented with SCF, Flt-3, IL-3, and IL-6 maintained their surface phenotype for 5 days and expressed readily detectable levels of the transgene. The average transduction efficiency of the CD34+CD38- cells was 59 +/- 7% as determined by flow cytometry. Erythroid and myeloid colonies derived from transduced CD34+CD38- cells were EGFP positive at a high frequency (66 +/- 9%). In contrast, a murine leukemia virus-based vector transduced the CD34+CD38- cells at a low frequency (<4%). These results demonstrate the utility of lentiviral-based gene transfer vectors in the transduction of primitive human hematopoietic CD34+CD38- cells.
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PMID:Human cord blood CD34+CD38- cell transduction via lentivirus-based gene transfer vectors. 1039 73

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