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)

The regulation of Mac-1, LFA-1, and p150,95 expression during leukocyte differentiation was examined. LFA-1 was present on almost all cell types studied. Both Mac-1 and p150,95 were present on the more mature cells of the myelomonocytic series, but only p150,95 was detected on some B cell lines and cloned cytotoxic T lymphocytes. Phorbol myristate acetate (PMA) stimulation of B chronic lymphocytic leukemia cells dramatically increased p150,95 expression. The resultant Mac-1, LFA-1, p150,95 phenotype resembled hairy cell leukemia, a B cell plasmacytoid leukemia. The promonocytic cell line U937 and the promyeloblastic cell line HL-60 expressed only LFA-1. Monocytic differentiation of U937 cells was stimulated by PMA, and induced the concomitant expression of Mac-1 and p150,95, with more p150,95 induced than Mac-1. Granulocyte/macrophage colony-stimulating factor (GM-CSF) stimulation of U937 cells gave similar results. PMA-stimulated monocytic differentiation of the HL-60 cell line also induced expression of both Mac-1 and p150,95. The number of p150,95 molecules on PMA-stimulated U937 and HL-60 cells were 5 X 10(5) and 3 X 10(5), respectively. Retinoic acid stimulated myeloid differentiation of HL-60 cells and induced expression of both Mac-1 and p150,95. These cells acquired a Mac-1, LFA-1, p150,95 profile that resembled that of granulocytes, with more Mac-1 than p150,95 induced. GM-CSF stimulation of HL-60 cells induced a similar Mac-1 and p150,95 phenotype. The contributions of Mac-1, LFA-1, and p150,95 to aggregation of PMA-differentiated U937 cells were assessed. Monoclonal antibodies to the beta subunit and the LFA-1 alpha subunit, but not those to p150,95 or Mac-1 alpha subunit, inhibited this homotypic adherence.
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PMID:Regulated expression of the Mac-1, LFA-1, p150,95 glycoprotein family during leukocyte differentiation. 242 76

We and others have previously demonstrated expression of the co-fms proto-oncogene during human monocytic differentiation. The c-fms gene has since been shown to encode for the macrophage specific colony stimulating factor (CSF-1) receptor. The present results demonstrate that both CSF-1 and c-fms transcripts are induced during monocytic differentiation of human HL-60 leukemia cells. The results further demonstrate that normal human monocytes express CSF-1 RNA and that the level of these transcripts increases upon treatment with phorbol ester. Finally, the detection of CSF-1 RNA in HL-60 cells and in monocytes is associated with production of the CSF-1 gene product. These findings would suggest that monocytes are capable of regulating their own survival, growth and differentiation through CSF-1 production.
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PMID:Expression of the macrophage specific colony-stimulating factor (CSF-1) during human monocytic differentiation. 243 85

Recent studies have demonstrated by Northern blot analysis that both the c-fms proto-oncogene and the CSF-1 gene are expressed during human monocytic differentiation. In order to examine c-fms and CSF-1 expression at the cellular level, we have applied alkaline phosphatase detection of biotinylated v-fms and CSF-1 cDNA probes in situ. Using this approach, we demonstrate that c-fms and CSF-1 transcripts are detectable in HL 60 cells induced along the monocytic lineage but not in uninduced cells. The specific detection of these transcripts is further supported by the absence of histochemical staining in RNase-treated cells and when using pBR322 plasmid without insert as the biotinylated probe. Finally, the results indicate that most of the induced HL-60 cells have detectable levels of both c-fms and CSF-1 RNA. This approach should be useful for studying expression of these genes in populations of leukemic blasts and normal hematopoietic cells.
Leukemia 1987 Jun
PMID:Detection of c-fms and CSF-1 RNA by in situ hybridization. 244 33

The effects of human recombinant granulocyte and granulocyte-macrophage- (G- and GM-CSF), and of purified macrophage-stimulating factors (CSF-1), were tested on populations of leukemia cells isolated from 18 patients with different types of acute myeloid leukemia. Cell proliferation and differentiation were studied by culturing the cells in suspension for 7 days in the presence of CSF or medium alone. Spontaneous cell proliferation, as assessed by tritiated thymidine uptake, was observed in 9 of the 18 cases. GM-CSF induced proliferation in seven of the nine cases without spontaneous growth and increased spontaneous proliferation in nine cases. G-CSF added alone was also found to strongly stimulate leukemic blast cell proliferation, in which a translocation involving the long arm of chromosome 17 was observed. Low levels of CSF-1 stimulation were also observed in some cases. No clear morphological modification supporting evidence of terminal differentiation was observed, whereas modulation of some cell surface antigens was detected by flow cytometry. Thus, most leukemia cells still depend on growth factors for their proliferation, GM-CSF appearing the most effective. On the other hand these factors were not able to induce terminal differentiation.
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PMID:Growth response of human myeloid leukemia cells to colony-stimulating factors. 245 72

Malignant cells of a patient with acute leukemia expressed hematopoietic stem cell antigens such as CD34 and HLA-class II but lacked lineage specific differentiation markers. The leukemic blasts differentiated into mature T cells within 14 days in the presence of a T cell conditioned medium or with a mixture of highly purified interleukin-2 (IL-2) plus recombinant interleukin-3 (IL-3) and recombinant granulocyte/macrophage colony-stimulating factor (GM-CSF). Phenotypically, the maturing cells acquired the T cell-specific differentiation antigens CD2, CD3, and CD8, whereas immature differentiation antigens such as CD34 and Leu19 as well as HLA-class II and the IL-2 receptor CD25 were concomitantly down-regulated within 14 days of in vitro culture. This in vitro maturation involved two to three synchronized cell divisions. Beyond 10 days of culture the leukemic cells produced mRNA specific for the T cell receptor beta and alpha chain, but at no time transcription of T cell receptor gamma chain-specific message was detectable. To our knowledge, these data represent the first in vitro model demonstrating the differentiation of phenotypically mature T cells from immature leukemic cells induced by the combined activities of IL-2 plus IL-3 and GM-CSF.
Leukemia 1988 May
PMID:Generation of mature CD3+ and T cell receptor (TCR) + T cells from a leukemic analogue of the putative human stem cell by T cell conditioned medium containing IL-3, IL-2, and GM-CSF. 245 58

The blast cells of acute myeloblastic leukemia may be considered as a renewal population maintained by stem cells that are capable of both self-renewal and differentiation. Blast stem cells grow in culture usually when stimulated by growth factors normally active on myelopoietic cells. Two culture methods permit an evaluation of the balance between self-renewal and differentiation; previous studies have shown that this balance can be affected by recombinant growth factors. These include interleukin 3 (IL-3) and granulocyte-macrophage colony stimulating factor (GM-CSF), active on early cells in normal myelopoiesis, and G-CSF and CSF-1, restricted in normal hemopoiesis to the granulopoietic and macrophage/monocytic lineages, respectively. In this paper we report the results of evaluating the effects on these recombinant growth factors alone or in mixtures of two at optimal concentrations. The results were obtained either using titrations of colony formation in methylcellulose or growth in suspension. Star diagrams, a technique from exploratory data analysis, were used to provide quantitative and graphic displays of the results of the recombinant factors on the balance between blast self-renewal and differentiation. Blasts from 4 acute myeloblastic leukemia patients and one patient with the blast crisis of chronic myeloblastic leukemia were examined in detail. The great patient-to-patient variation usually observed was seen in both plating efficiency in methylcellulose and growth pattern in suspension. In spite of this variation, a common pattern of response to growth factors emerged. When the early acting factors, IL-3 and GM-CSF, were combined, the effect was quantitatively and qualitatively similar to the largest stimulation seen with either of the factors alone. In contrast, late-acting factors, G-CSF and CSF-1, influenced each other's effects when present together and each affected the activities of GM-CSF and IL-3. Notably, CSF-1, which often led to the accumulation of adherent, terminal cells in suspension, usually maintained or increased this differentiation-like activity in combination. G-CSF also favored differentiation in combination, although the effect was usually to increase the number of colonies in methylcellulose, most of which consist of blast cells incapable of further divisions. The results are discussed as they relate to the postulated structure of the blast population and the normal targets of the recombinant growth factors.
Leukemia 1988 Jun
PMID:The effects of combinations of the recombinant growth factors GM-CSF, G-CSF, IL-3, and CSF-1 on leukemic blast cells in suspension culture. 245 60

A number of cloned biologic factors are currently available that are candidates for therapy of myelodysplastic syndromes and, by extension, acute nonlymphoblastic leukemia. gamma-Interferon and, to a greater extent, tumor necrosis factor exhibit leukemic differentiative effects without the potential for stimulation of leukemic clones. These effects may be enhanced by combinations of these with one another or with chemical inducers of differentiation such as retinoic acid or vitamin D derivatives. The colony-stimulating factors clearly have potent in vivo effects upon hematopoiesis. The lineage specific factors (G- or M-CSF) may have greater differentiation induction potential and less risk of accelerating emergence of leukemic clones than the earlier acting factors (GM- or multi-CSF). Thus, several potentially fruitful avenues for clinical research are currently available.
Leukemia 1988 Jun
PMID:The basis for treatment of myelodysplastic syndrome and acute nonlymphoblastic leukemia with biologic agents. 245 61

Induction of proliferation and differentiation in response to the addition of recombinant human granulocyte colony-stimulating factor (G-CSF) was studied by both suspension and semisolid cultures in a series of acute myeloid leukemias (AML). Induction of proliferation by G-CSF alone was observed in six of 27 cases of AML. All acute promyelocytic leukemias with the specific chromosomal translocation t(15;17) and one case of myelomonocytic leukemia with balanced chromosomal translocation involving chromosome 17 at band q12q21 were induced to proliferate strongly by the G-CSF. However, contrary to the long-term proliferative effect observed with granulocyte/macrophage colony-stimulating factor (GM-CSF), G-CSF activity can be characterized by its capability to initiate and promote the growth of responding AML cells but not to sustain long-term proliferation. Finally, no terminal differentiation was found, as assessed by morphology, cytochemistry, and cell surface marker analysis. These results indicate that G-CSF may be sufficient to provide a specific signal for induction of a transient proliferation in AML without induction of terminal differentiation. The cells with the highest response are clonal leukemia cells, all bearing a translocation involving the chromosome region 17q12q21 in which the G-CSF gene has been recently located.
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PMID:Preferential response of acute myeloid leukemias with translocation involving chromosome 17 to human recombinant granulocyte colony-stimulating factor. 245 72

Transplantable erythroblastic leukemia was induced by 300-rad irradiation of C3H mice. Conditions for in vitro growth of the leukemic cells were studied. None of interleukin-3, granulocyte/macrophage colony-stimulating factor and erythropoietin could support the growth of the cells in vitro. In contrast, the leukemic cells grew into a stroma-dependent cell line, ELM-D, in close contact with the stromal cell layer of 900-rad-irradiated long-term bone marrow culture. A stroma-independent cell line, termed ELM-I-1, was further established from the non-adherent population in the co-culture of the leukemic cells, ELM-D, with stromal cells. Reverse transcriptase activity was not detectable in ELM-D or ELM-I-1 cells. Studies on binding and cross-linking of 125I-erythropoietin showed that ELM-I-1 cells had erythropoietin receptors, and two major radiolabeled protein products with molecular weights of 120 kDa and 140 kDa were detected on sodium dodecyl sulfate/polyacrylamide gel electrophoresis under reducing conditions.
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PMID:Stromal cell-dependent growth of leukemic cells from murine erythroblastic leukemia. 246 Apr 23

[3H]thymidine uptake by NFS-60 cells in microcultures was found to increase in a linear fashion with the increasing doses of purified recombinant human granulocyte colony-stimulating factor (rhG-CSF). Such increases were found neither with rhG-CSF samples pretreated with rabbit anti-rhG-CSF serum nor with other human colony-stimulating factors such as granulocyte-macrophage colony-stimulating factor (hGM-CSF) or macrophage colony-stimulating factor (hM-CSF). Based on these findings, sera from normal persons and patients with severe infections or various hematological disorders were tested after dialysis using this system in order to determine whether G-CSF levels in sera can be estimated or not. In ten normal persons, five patients with acute myelogenous leukemia (AML M1, M2, and M3), five with myelodysplastic syndrome, and four with chronic myelogenous leukemia, no increases in [3H]thymidine uptake were found within the dose range of 0.4 microliters to 50 microliters. In contrast, linear dose responses parallel to a G-CSF standard curve were observed in one patient with a severe bacterial infection, four with aplastic anemia, two with acute myelomonocytic leukemia (AMMoL) (M4), and two with idiopathic neutropenia tested. From the standard curve, the probable levels of G-CSF were calculated as follows: approximately 200 pg/ml with infection, 130-220 pg/ml with aplastic anemia, 150 and 200 pg/ml with AMMoL, and 1120 and 1200 pg/ml with idiopathic neutropenia. The activities of sera were reduced by the anti-rhG-CSF serum pretreatment in the same way as documented in the case of rhG-CSF. Furthermore, the level in a patient with a severe infection became undetectable soon after elimination of the infection and blood neutrophil counts had returned to normal. These findings indicate that the microbioassay system will be useful for measuring circulating G-CSF levels which would fluctuate in accord with requirements for stimulating neutrophil production or with abnormal production of hG-CSF.
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PMID:A new bioassay for human granulocyte colony-stimulating factor (hG-CSF) using murine myeloblastic NFS-60 cells as targets and estimation of its levels in sera from normal healthy persons and patients with infectious and hematological disorders. 246 30


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