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: UNIPROT:P04141 (granulocyte-macrophage colony-stimulating factor)
6,790 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cDNA for canine stem cell factor (cSCF, c-kit ligand) was cloned and expressed in Escherichia coli. The recombinant protein (rcSCF), 165 amino acids in length, is very similar structurally to the soluble form of previously cloned and sequenced rodent and human SCFs. The biological effects of rcSCF were studied in a day-10 granulocyte-macrophage colony-forming unit (CFU-GM) clonogenic assay and in long-term liquid bone marrow culture of non-adherent hematopoietic cells in the absence of a stromal underlayer. Synergism in the stimulation of growth of CFU-GM was demonstrated between rcSCF and both recombinant human (rh) granulocyte-macrophage colony-stimulating factor (GM-CSF) and naturally occurring colony-stimulating activity present in the serum of a neutropenic dog. Alone, rcSCF was nonstimulatory for committed marrow precursors in methylcellulose cultures and had minimal effect on hematopoietic progenitor cell survival in stromaless, liquid cultures. When rcSCF was combined with phytohemagglutinin-stimulated canine lymphocyte-conditioned medium (PHA-LCM) or rh interleukin 6 (IL-6), with or without rhGM-CSF, CFU-GM survived for up to 5 weeks. The combination of rcSCF and rhGM-CSF, without rhIL-6, led to an early increase in CFU-GM in liquid cultures that declined more rapidly than in flasks that included rhIL-6. Survival of progenitor cells was negligible beyond 1 week in flasks with growth factor combinations lacking rcSCF. Sustained production of nonadherent cells in long-term cultures also was dependent on rcSCF in combination with canine PHA-LCM or recombinant human growth factors. It appears that rcSCF, like that from rodent and primate species, has the ability to influence the survival and proliferation of CFU-GM, and perhaps earlier progenitor cells, in hematopoietic tissues. In a long-term liquid culture system in which growth factor production by stromal cells is limited, rcSCF possesses a unique ability to maintain the viability of progenitor cells for up to 5 weeks.
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PMID:Canine stem cell factor (c-kit ligand) supports the survival of hematopoietic progenitors in long-term canine marrow culture. 128 86

Hematopoietic stem cells (HSC) transplanted in utero are in competition with endogenous HSC; thus, ultimately the graft constitutes a relatively small fraction of total HSC pool. To enhance the engraftment of donor cells in sheep fetuses, we preincubated these cells, ex vivo, for 16 hours at 37 degrees C with the conditioned medium from phytohemagglutinin-stimulated lymphocytes (PHA-LCM) before in utero transplantation. PHA-LCM is a rich source of hematopoietic growth factors in sheep. Subsequent engraftment was significantly higher in cells preincubated with PHA-LCM compared with fresh cells or those incubated with control medium only. This was reflected in all markers of the donor cells (hemoglobin type, karyotype, and progenitor cell assays). Brief ex vivo incubation with PHA-LCM also increased viability of all marrow cells as well as total numbers of progenitors. Similar enhancement of engraftment was also noted in monkeys after a brief preincubation of donor cells with interleukin-3 (IL-3) and granulocyte-macrophage colony-stimulating factor (GM-CSF). We conclude that brief (16 hours) ex vivo incubation of donor cells with a source of such growth factors as IL-3 and GM-CSF enhances the subsequent engraftment of transplanted cells.
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PMID:Ex vivo incubation with growth factors enhances the engraftment of fetal hematopoietic cells transplanted in sheep fetuses. 135 Feb 30

A new human leukemia cell line, designated as ME-1, was established from the peripheral blood leukemia cells of a patient with acute myelomonocytic leukemia with eosinophilia (M4E0). This cell line has the characteristic chromosome abnormality of M4E0, inv(16) (p13q22). When cultured in RPMI 1640 medium containing 10% fetal calf serum, ME-1 cells were monoblastoid, but with the addition of cytokines such as interleukin-3 (IL-3), granulocyte-macrophage colony-stimulating factor (GM-CSF), IL-4, or medium conditioned by phytohemagglutinin-stimulated human peripheral leukocytes (PHA-LCM), the cells exhibited differentiation to macrophage-like cells. PHA-LCM also promoted eosinophilic-lineage differentiation of this cell line, although IL-5 did not do so. To elucidate the mechanism of proliferation and differentiation of ME-1 cells, we studied the effect of a potent inhibitor of protein kinase C, 1-(5-isoquinolinyl-sulfonyl)-2-methylpiperazine (H-7), on colony formation of ME-1 cells. H-7 inhibited colony formation of ME-1 cells by IL-3 or GM-CSF dose dependently, but had little inhibitory effect on colony formation by IL-4. These results indicate that the proliferation and differentiation of ME-1 cells by IL-3 or GM-CSF were related to the activation of protein kinase C, while those by IL-4 involved other regulatory systems. ME-1 cells should be useful for studying the pathogenesis of M4E0 and the mechanisms of proliferation and differentiation of leukemic and normal progenitors by cytokines.
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PMID:Establishment and characterization of a new human leukemia cell line derived from M4E0. 207 80

Peritoneal macrophages elicited by Lactobacillus casei YIT9018 (LCEPM) were incubated in culture for 18 h with L. casei; the culture supernatant (LCM) was then harvested and tested for its ability to increase the cytostatic activity of resident peritoneal macrophages (RPM) and LCEPM. Treatment of RPM with LCM induced activation of macrophages to a cytostatic state against L929, Colon 26, P815, P388D1 and L1210 cells. A combination of recombinant human tumor necrosis factor (rhTNF), recombinant mouse TNF (rmTNF), recombinant human interleukin-1 (rhIL-1) or bacterial lipopolysaccharide with recombinant mouse interferon gamma (rmIFN-gamma) resulted in the synergistic induction of cytostatic activity in RPM. Recombinant mouse granulocyte-macrophage colony-stimulating factor (rmGM-CSF) plus rhTNF increased the cytostatic activity of RPM a little but rmGM-CSF or rhTNF combined with rhIL-1 or alone had no effect. The effect of LCM on RPM was not inhibited by polymyxin B, anti-mTNF antiserum or below 20 U/ml monoclonal anti-rmIFN-gamma antibody (anti-rmIFN-gamma) but was inhibited by more than 40 U/ml anti-rmIFN-gamma, and LCM did not have any interferon antiviral activity. These results suggest that the cytostatic activity of RPM was augmented by the LCM, and that the effect of the LCM may be not due to IFN-gamma, TNF, GM-CSF, IL-1 or a small amount of contaminating lipopolysaccharide.
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PMID:Role of culture supernatant of cytotoxic/cytostatic macrophages in activation of murine resident peritoneal macrophages. 249 78

The colony-promoting activities of recombinant granulocyte-macrophage colony-stimulating factor (rGM-CSF) and recombinant granulocyte colony-stimulating factor (rG-CSF) on primary and secondary colony formation by blast progenitors (leukemic colony-forming units [L-CFU]) from 21 patients with acute myeloblastic leukemia (AML) were examined using blast colony assay and compared to colony promotion stimulated by phytohemagglutinin-stimulated leukocyte-conditioned medium (PHA-LCM). Recombinant GM-CSF stimulated blast colonies in 13 out of 20 cases examined (1 case not done). The magnitude of stimulation by rGM-CSF varied significantly according to the type of AML, but in general was lower than that of PHA-LCM. Blast cells of type M1 did not form any colonies with rGM-CSF, although numerous colonies were produced with PHA-LCM. Type M4 blasts formed fairly large numbers of colonies, though slightly less than those stimulated by PHA-LCM. Blasts of type M2 and M5 formed colonies with the stimulation of rGM-CSF, but the numbers were considerably smaller than type M4 and those stimulated with PHA-LCM. Recombinant G-CSF stimulated blast colonies in only 5 out of 21 cases, 3 of them being type M2. The number of cases responding to rG-CSF was significantly smaller than that responding to rGM-CSF, and even in cases in which colonies were formed, the magnitude of stimulation was minimal. From these results it seems likely that blast cells of different types of AML require a different kind of CSF for their optimal growth; type M4 blasts responded to the stimulation of rGM-CSF well, but blasts of other types of AML responded poorly. Thus, except for type M4, CSF(s) other than rGM-CSF seems to be required for the sufficient growth of L-CFU. Recombinant G-CSF is not likely to play an essential role in the proliferation of leukemic blasts of most types. Previous exposure to rGM-CSF and rG-CSF did not alter the self-renewal capacity, cellular phenotype, and morphology of colony cells, indicating that the direction and degree of differentiation of L-CFU stimulated by rGM-CSF or rG-CSF were not different from those stimulated with PHA-LCM.
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PMID:Effect of recombinant GM-CSF and recombinant G-CSF on colony formation of blast progenitors in acute myeloblastic leukemia. 278 49

A male neonate with Down's syndrome and congenital myeloproliferative disorder was studied. His blood picture showed the unique coexistence of leukocytosis with matured cells and a large number of blast cells. The in vitro proliferation and differentiation of blast cells into various lineages in the presence of phytohemagglutinin-stimulated leukocyte conditioned medium (PHA-LCM) was examined by using a liquid culture and a methylcellulose culture system. The differentiation of blast cells into myeloid cells was confirmed by specific cytochemical stainings, electron microscopy, and an immunologic study. No specific factors in the plasma of the patient promoted the proliferation or differentiation of blast cells. The cellular composition of colonies grown in methylcellulose culture from single blast cells was studied by a micromanipulation technique. High plating efficiency was observed. Of 136 cultures, 78 showed colony growth. Half of the blast cells were colony-forming cells that could proliferate and differentiate into basophils, neutrophils, eosinophils, macrophages, and erythrocytes in the presence of PHA-LCM. Using the blast cells with a high differentiation capacity to the basophil pathway, we studied the effect of recombinant granulocyte-macrophage colony-stimulating factor (GM-CSF). Recombinant GM-CSF support neutrophils, eosinophils, and macrophages but not typical basophils. These findings of the cell differentiation of blast cells into various kinds of cells in vitro were in agreement with the finding of neutrophilia, eosinophilia, basophilia, and thrombocythemia in this patient.
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PMID:Differentiation of blast cells from a Down's syndrome patient with transient myeloproliferative disorder. 294 80

Plasma samples were obtained from 34 bone marrow transplant (BMT) recipients before and after administration of the preparative regimen and tested for their ability to promote and/or support growth of hemopoietic colonies. The ability of plasma samples to promote colony formation on their own was tested on normal nonadherent target cells without addition of exogenous growth factors. The growth-supporting activity was examined in the presence of medium conditioned by phytohemagglutinin-stimulated leukocytes (PHA-LCM) and/or erythropoietin (EPO). A series of kinetic changes was routinely observed. Pretransplant samples rarely gave rise to colonies without addition of exogenous growth factors. Plasma samples obtained after completion of the preparative regimen demonstrated increments of growth-promoting activities for megakaryocyte and granulocyte-macrophage progenitors (CFU-Meg and CFU-GM), respectively, that peaked between 7 and 21 d after transplantation. By day 30, activity levels of some patients had returned to pretransplant values, whereas in other patients, activities remained elevated. Persisting activity levels were associated with delayed engraftment. In contrast, activities for progenitors committed to erythropoiesis (BFU-E) and pluripotent precursors (CFU-GEMM) were only rarely observed. The activities were independent of febrile episodes. Their growth-promoting influence on CFU-GM could be neutralized completely by anti-granulocyte-macrophage colony-stimulating factor (GM-CSF) antibodies. These data suggest that at least some of the observed activities in post-BMT plasma are related to GM-CSF. The growth-supporting activities of pretransplant plasma samples are lower than normal plasma when tested on CFU-Meg and CFU-GM. The growth-supporting activities improved transiently within the first month after BMT. A decline during the second and third month was followed by a gradual return to activity levels that were comparable to normal plasma. The effects of these plasma samples on BFU-E and CFU-GEMM were assessed with PHA-LCM and EPO. Similar to CFU-Meg- and CFU-GM-supporting capabilities, they improved transiently after BMT with a return of normal support function after 5-6 mo. The observed endogenous production of growth-promoting and growth-supporting activities for hemopoietic progenitors may serve as a background to design clinical trials for the timely administration of recombinant hemopoietic growth factors to BMT recipients.
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PMID:Hemopoietic colony growth-promoting activities in the plasma of bone marrow transplant recipients. 329 85

A variety of biologic activities on human hematopoietic stem cells were detected in 12-O-tetradecanoylphorbol-13-acetate-stimulated leukocyte-conditioned medium (TPA-LCM). Partial purification of TPA-LCM demonstrated the presence of human-active granulocyte-macrophage colony-stimulating factor (GM-CSF; Mr 50-70Kd), macrophage-CSF (M-CSF; Mr greater than 100Kd) and possibly a third protein (Mr 24-26Kd) supporting survival and growth of hematopoietic stem cells in vitro. Activities investigated included GM-colony and erythroid burst-potentiation, burst-promoting activity (BPA) and delta granulocyte and delta burst-promoting activities (delta GPA and delta BPA).
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PMID:Human hematopoietic survival and growth factor. 348 87

In order to assess the response of acute myeloid leukemia colony-forming cells (AML-CFU) to recombinant granulocyte-macrophage colony-stimulating factor (rGM-CSF), AML blasts of 20 patients were cultured in a colony assay supplemented with titrated concentrations of rGM-CSF. In 16 cases rGM-CSF was able to induce AML colonies. In eight cases maximal clonogenic cell proliferation was obtained with 100 U rGM-CSF/ml alone (type I response). In eight other cases, however, maximal colony numbers were reached only after the addition of low concentrations of PHA-leukocyte conditioned media (PHA-LCM) to the rGM-CSF containing cultures (type II response). These values could not be obtained with higher doses of rGM-CSF (500 U/ml) or PHA-LCM separately. Thus in this subgroup, optimal AML colony formation depended on rGM-CSF plus an additional factor. Finally, in 4 of 20 cases rGM-CSF alone (100 U, 1000 U/ml) was not capable of inducing any AML colonies in vitro (type III). In these latter cases proliferation of AML-CFU could be achieved only by supplementing PHA-LCM. We conclude that GM-CSF is a stimulator of the in vitro proliferation of AML clonogenic cells. However, in a majority of these cases, i.e., 12 out of 20, AML-CFU require an additional factor for optimal proliferation which is produced by PHA-stimulated leukocytes.
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PMID:Patterns of acute myeloid leukemia colony growth in response to recombinant granulocyte-macrophage colony-stimulating factor (rGM-CSF). 349 34

We have studied the effects of recombinant human interleukin-9 (IL-9), alone and combined with stem cell factor (SCF, c-kit ligand), IL-3, and granulocyte-macrophage colony-stimulating factor (GM-CSF) on the clonogenic proliferation of highly enriched human hematopoietic CD34+ and CD34+CD33-DR- progenitor cells. Colony assays were performed under serum-containing and serum-free conditions. IL-9, as a single agent, did not support colony formation. The addition of erythropoietin (Epo) to IL-9 induced the growth of erythroid progenitors (BFU-E) derived from both CD34+ and CD34+CD33-DR- cells. The IL-9-dependent growth of BFU-E derived from CD34+ cells was increased in an additive manner by SCF and, to a lesser extent, by IL-3, whereas CD34+CD33-DR- erythroid precursors were also responsive to GM-CSF in combination with IL-9. The addition of SCF to IL-9 did stimulate the development of CD34+ and CD34+CD33-DR- macroscopic, multicentered BFU-E and multilineage colonies (CFU-GEMM). When IL-9 was used in serum-free conditions, the growth of CD34+ and CD34+CD33-DR- BFU-E was observed in the presence of Epo. Moreover, a marked synergy on BFU-E colony formation was evident when IL-9 was combined with SCF, and their activity was enhanced by the addition of IL-3. IL-9 showed a negligible proliferative activity on colony-forming units-granulocyte/macrophage (CFU-GM). However, it increased the number of CD34+CD33-DR- CFU-GM responsive to IL-3 (37% of the colonies generated by phytohemagglutinin-stimulated lymphocyte conditioned medium [PHA-LCM]). The effects of IL-9 on CD34+CD33-DR- cells were also studied in a short-term suspension culture system, which evaluates the proliferation of progenitors earlier than day 14 CFU-C (Delta assay). In this system, IL-9 had a minimal activity on its own. In combination with SCF, however, it induced a nine-fold expansion of CD34+CD33-DR- cells, which generated a greater number of CFU-GM than BFU-E in secondary methylcellulose cultures. These experiments indicate that IL-9 induces the proliferation of very primitive human erythroid cells, and this effect is potentiated by SCF and other cytokines. Furthermore, IL-9 synergizes in vitro with the c-kit ligand in expanding the pool of early pluripotent hematopoietic progenitor cells.
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PMID:Stem cell factor (c-kit ligand) enhances the interleukin-9-dependent proliferation of human CD34+ and CD34+CD33-DR- cells. 752 Mar 94


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