Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Early studies examining the effects of purified or recombinant granulocyte colony-stimulating factor (G-CSF) on human leukemia cell lines demonstrated that some cell lines, such as HL-60, could be induced to differentiate in response to G-CSF. In two recent studies reporting the cloning of the human G-CSF receptor (hGCSFR), four classes of receptor cDNA were identified and, surprisingly, the message for this receptor was reportedly expressed by HL-60 at either very low levels or not at all. Using a mouse G-CSF receptor probe, we cloned and sequenced a cDNA for hGCSFR from an HL-60 cDNA library in plasmid and used it to identify 31 additional clones from an HL-60 cDNA library in phage. Polymerase chain reaction analysis of the 31 phage clones established that 29 were derived from class I hGCSFR mRNA, one was derived from class III mRNA, and one was derived from class IV mRNA. In addition, the hGCSFR gene was chromosomally localized by Southern blot analysis of its segregation pattern in a panel of rodent-human hybrid DNAs using the radiolabeled cDNA probe. The hGCSFR locus was present in hybrids retaining the distal short arm of human chromosome 1 and absent in hybrids that did not retain this region. Chromosomal in situ hybridization refined the localization of the hGCSFR gene to region 1p32-p34. The combination of hybrid DNA analysis and in situ hybridization places the hGCSFR gene telomeric to the CSF1, JUN, and TCL-5 loci.
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PMID:Molecular cloning of cDNAs for the human granulocyte colony-stimulating factor receptor from HL-60 and mapping of the gene to chromosome region 1p32-34. 137 13

Granulocyte colony-stimulating factor (G-CSF) was linked to NHS-biotin to yield biotinylated G-CSF (b-G-CSF), which retained the ability to stimulate colony formation by normal bone marrow (BM) cells in methylcellulose. The use of streptavidin-phycoerythrin conjugate in conjunction with flow cytometry demonstrated that the binding of biotinylated G-CSF to its receptor is saturable, competitive, and specific. A 100-fold molar excess of unlabeled G-CSF almost completely inhibited the binding of the biotinylated G-CSF to the human leukemia cell line U937, which is known to possess the G-CSF receptor. G-CSF receptors were clearly detected by flow cytometry on adult human peripheral granulocytes and monocytes, but not on lymphocytes. Using this method, the expression of G-CSF receptors on hematopoietic progenitor cells in bone marrow and umbilical cord blood, detected as CD34-positive (CD34+) cells, were examined. A small but significant number of CD34+ cells were detected among the bone marrow mononuclear cells and umbilical-cord-blood mononuclear cells (4.28% +/- 0.31%, 1.09% +/- 0.20%, respectively). The percentage of CD34+ BM mononuclear cells was significantly higher than for cord blood mononuclear cells (P less than 0.01). These CD34+ cells were then analyzed by biotinylated G-CSF binding. CD34+ cells from bone marrow contained 25.8% +/- 7.9% G-CSF receptor positive cells and those from cord blood possessed 29.2% +/- 7.0% of G-CSF receptor-positive cells. The difference was not statistically significant.
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PMID:Detection of the granulocyte colony-stimulating factor receptor using biotinylated granulocyte colony-stimulating factor: presence of granulocyte colony-stimulating factor receptor on CD34-positive hematopoietic progenitor cells. 138 92

Granulocyte colony-stimulating factor (G-CSF) receptors on the gated leukemic blast cells from newly diagnosed patients with acute leukemia or crisis of chronic myelogenous leukemia were investigated using flow cytometric detection. Surface marker analysis and cytochemical studies were conducted simultaneously to characterize the blast cells. Among 24 leukemia cases examined, G-CSF receptor-positive blast cells were detected in all 11 cases of acute myeloblastic leukemia even though the percentage range of positive cells was widely variable. On the other hand, they were not detected on the blast cells from patients with peroxidase-negative acute lymphoblastic leukemia with no myeloid surface antigens. However, G-CSF receptors were demonstrated in significant amounts on blast cells from 5 of 8 cases of peroxidase-negative acute leukemia expressing both myeloid and lymphoid surface antigens (biphenotypic leukemia). The percentage of blast cells positive for G-CSF receptors was significantly smaller in biphenotypic cases [33 +/- 14% (SD)] than in acute myeloblastic leukemia cases [65 +/- 22%] (P less than 0.01). The percentage expression of CD13 antigen by blast cells was significantly related to their percentage positivity for G-CSF receptors (rs = 0.50, P less than 0.05). These findings indicate that the distribution of flow cytometrically detectable G-CSF receptors on leukemic cells possessing myeloid characteristics may be related to the maturation process.
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PMID:Granulocyte colony-stimulating factor receptors on human acute leukemia: biphenotypic leukemic cells possess granulocyte colony-stimulating factor receptors. 153 71

The effect of recombinant human granulocyte colony-stimulating factor (G-CSF) on DNA topoisomerase II (topo II) expression was studied in two human acute myelogenous leukemia cell lines, NKM-1 and NOMO-1, which express G-CSF receptor and proliferate in response to exogenous G-CSF. Northern blot analysis revealed that the level of topo II mRNA in 16-h stimulated cells in serum-free medium with G-CSF (10 ng/ml) was approximately 2-fold higher than that in cells without G-CSF. Enhanced topo II mRNA expression was detectable within 3 h after the addition of G-CSF. Topo II activity in crude nuclear extracts from 16-h G-CSF-stimulated cells was also found to be approximately 2-fold greater than that from unstimulated cells. According to in vitro cytotoxic assay, the sensitivity of G-CSF-stimulated cells to intercalating (daunorubicin) and nonintercalating (etoposide) topo II-targeting drugs increased significantly, whereas no enhancement of sensitivity was observed with an alkylating agent (4-hydroperoxycyclophosphamide). The augmented drug sensitivity observed was not due to the increased level of drug transport, as suggested by the similar extent of [3H]etoposide uptake between G-CSF-stimulated and unstimulated cells. By measuring the topo II mRNA and the cytotoxicity of the above mentioned drugs, we obtained essentially the same results in G-CSF-responsive leukemia cells isolated from three acute myeloblastic leukemia patients, as observed in the cultured cell lines. These findings strongly suggest that the sensitivity to "topo II-targeting drugs" could be augmented by exogenous G-CSF through elevated topo II activity in G-CSF-responsive leukemia cells.
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PMID:Enhanced expression of DNA topoisomerase II by recombinant human granulocyte colony-stimulating factor in human leukemia cells. 169 57

Three cDNAs for the human granulocyte colony-stimulating factor (G-CSF) receptor were isolated from the cDNA libraries of human U937 leukemia cells and placenta by using a murine G-CSF receptor cDNA as the probe. The human G-CSF receptor containing 813 amino acids had a marked homology (62.5%) with its murine counterpart and consisted of extracellular, transmembrane, and cytoplasmic domains. The WSXWS motif found in members of the newly identified growth factor receptor family was also present in the extracellular domain of the human G-CSF receptor. Expression of the cloned cDNA in monkey COS cells gave rise to a protein that could specifically bind G-CSF with a high affinity (Kd, 550 pM). Two other classes of the human G-CSF receptor were also identified, one of which had a deletion of the transmembrane domain and seemed to encode a secreted, soluble receptor. The third class of the G-CSF receptor contained a 27-amino acid insertion in the cytoplasmic domain and was highly expressed in placenta.
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PMID:Three different mRNAs encoding human granulocyte colony-stimulating factor receptor. 170 Oct 53

The number and the affinity of granulocyte colony-stimulating factor (G-CSF) receptors expressed by blast cells in acute myeloblastic leukaemia (AML) were determined using radiolabelled recombinant human G-CSF (rhG-CSF). Eighteen of 20 patients demonstrated specific binding, and Scatchard analysis revealed a single class of high affinity (Kd 15-130 pM) G-CSF receptors on the AML blasts. The number of G-CSF receptors varied from 55 to 1,200 per cell (mean 278). In the remaining two patients, specific binding was not observed. The number of G-CSF receptors did not differ significantly between various AML subtypes, but the mean receptor number was the highest on type M2 blasts. A chemical cross-linking study revealed that the G-CSF receptor has an approximate molecular weight of 140,000. Autoradiography showed heterogeneity of the distribution of G-CSF receptors on the AML blasts obtained from a single patient. The number of colonies stimulated by the addition of rhG-CSF varied from 0 to 566 per dish, and blast colony formation was observed in eight of 20 patients. The population mean of G-CSF receptor number expressed by blasts that formed colonies on stimulation with rhG-CSF was significantly higher than that on blasts which did not form colonies. These results suggest that a proliferative response of AML blasts to G-CSF may be predicted when the blasts express a large number of G-CSF receptors. Accordingly, it may be safer to restrict the clinical use of G-CSF to AML patients who have blasts with a low G-CSF receptor expression and no response to G-CSF in blast colony assay.
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PMID:Granulocyte colony-stimulating factor (G-CSF) receptors on acute myeloblastic leukaemia cells and their relationship with the proliferative response to G-CSF in clonogenic assay. 170 33

To investigate the role of the G-CSF receptor (G-CSFR) in mediating the action of G-CSF, WEHI-3B D+ murine myelomonocytic leukemia cells were transfected with a plasmid containing the murine G-CSFR gene. Overexpression of G-CSFR in transfected clones was demonstrated by northern blotting, binding of [125I]rhG-CSF and cross-linking experiments. A high level of expression of the G-CSFR did not promote or suppress cellular proliferation or initiate differentiation; however, exposure of transfected cells to G-CSF in suspension culture caused a large percentage of the population to enter a differentiation pathway, as determined by two markers of the mature state, the ability of cells to reduce nitroblue tetrazolium (NBT) and to express the differentiation antigen Mac-1 (CD11b) on the cell surface. Thus, upon treatment with 10 ng/ml of G-CSF, 60% or more of transfected cells exhibited NBT positivity; whereas, in contrast, nontransfected cells exhibited only 6% NBT positivity in response to G-CSF. An eightfold increase in Mac-1 expression over that of the parental line was also observed in transfected cells exposed to G-CSF. The growth rate of the transfected clones was decreased by exposure to G-CSF, presumably due to terminal differentiation. The findings suggest that the predominant function of G-CSF and its receptor in WEHI-3B D+ cells is to mediate differentiation and that the level of the G-CSFR portion of the signal transduction mechanism in this malignant cell line is important for a response to the maturation inducing function of the cytokine.
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PMID:Regulation of the differentiation of WEHI-3B D+ leukemia cells by granulocyte colony-stimulating factor receptor. 768 Jun 56

In treatment of leukemia with granulocyte colony stimulating factor (G-CSF), the possibility is that G-CSF receptors on leukemic cells lead to activate its proliferation in response to G-CSF. Therefore, it is useful to know the proportions of leukemic cells with receptors for G-CSF. We used flow cytometry to estimate the proportion of such cells and normal granulocytes with G-CSF binding activity. Recombinant human G-CSF was labeled with fluorescein isothiocyanate. Granulocytes showed higher binding to the G-CSF than lymphocytes. Leukemic cells obtained from 17 to 21 patients with AML bound specifically to G-CSF, but leukemic cells with lymphoid malignancies did not. Our results showed positive correlation with date obtained by the isotopic G-CSF receptor assay. With this method, leukemic cells need not be isolated; they can be distinguished from lymphocytes or granulocytes on the cytometry screen. Radioisotopes are not needed. It is judged to be practical for the clinical laboratory.
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PMID:Flow cytometric analysis of G-CSF receptors on normal white cells and leukemic cells. 769 17

Two patients with chronic myelocytic leukemia (CML) mixed crisis and one with Philadelphia-chromosome-positive (Ph1 +) acute lymphoblastic leukemia (ALL) with cross-lineage nature had a considerable number of granulocytes with monoclonally rearranged immunogenotype. The gene configurations of immunoglobulin heavy chain (IgH), T-cell receptor beta chain (TCR beta), and gamma chain (TCR gamma) in the granulocytic cells were identical to those in the blasts, indicating that both the blasts and the granulocytes were derived from common leukemic progenitors with the IgH gene rearrangements. In a colony assay of cells from in the Ph1 + ALL patient, the leukemic cells showed the potential to differentiate into granulocytes in the presence of either granulocyte-macrophage colony-stimulating factor (GM-CSF) or granulocyte-CSF (G-CSF). Interleukin 7 (IL-7) exerted synergistic effects on colony and cluster formation in cultures with these cytokines. Further, IL-3, GM-CSF, and G-CSF receptor gene expression was found in the leukemic cells. Our findings indicate that the Ph1 + common progenitors in these three patients preserved the potential for granulocytic differentiation even after the occurrence of the Ig (and TCR) gene rearrangements as the first genomic event in lymphocyte differentiation. The phenomenon of cross-lineage in leukemic cells, at least in Ph1 + leukemia, can be considered to demonstrate the potential of leukemic progenitors to differentiate in multiple directions.
Leukemia 1993 Feb
PMID:A granulocytic population with rearranged immunogenotype in chronic myelocytic leukemia blast crisis and Philadelphia-chromosome-positive acute leukemia with cross-lineage nature. 838 Nov 95

The mRNA expression of alkaline phosphatase (ALP), myeloperoxidase (MPO), defensin and G-CSF receptor (G-CSFR) in bone marrow cells of normal individuals and myeloid disorders, with or without in vitro stimulation by myeloid cell growth factors, i.e. G-CSF, GM-CSF and IL-3, were examined as markers for myeloid cell differentiation in both mononuclear cell (MNC) and polymorphonuclear cell (PMN) fractions. Without any stimulation, ALP mRNA was expressed only in PMNs, G-CSFR mRNA in PMNs were expressed stronger than in MNCs; both MPO and defensin mRNA were expressed to the same degree in both fractions. With stimulation, the ALP mRNA expression in both fractions was strongly enhanced by G-CSF, but the expression was inhibited by GM-CSF and/or IL-3. MPO mRNA expression was stimulated by G-CSF and/or GM-CSF in MNCs. G-CSFR mRNA expression was enhanced by G-CSF in both fractions. Defensin mRNA expression was inhibited by G-CSF. In cases of myelodysplastic syndrome and chronic myelogenous leukaemia which display a suppressed maturation of myeloid cells, our results demonstrated an almost normal response to these growth factors. Our results suggest that studies on these myeloid marker mRNA expressions would provide more knowledge about the differentiation state and cytokine reactivity of myeloid cells in normal individuals as well as various disorders.
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PMID:Effects of myeloid cell growth factors on alkaline phosphatase, myeloperoxidase, defensin and granulocyte colony-stimulating factor receptor mRNA expression in haemopoietic cells of normal individuals and myeloid disorders. 856 17


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