UNIPROT:P04141 - FACTA Search

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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 in-vitro detection and quantitation of ovine bone-marrow precursors of multipotential colony-forming cells (pre-multi CFC) is described. After 5 and 10 days in liquid culture containing medium conditioned by long term bone marrow stromal cell layers (SCM) along with lymph node-conditioned medium (LNCM) or recombinant ovine interleukin-3 (rov IL-3), increased numbers of multi CFC developed from bone marrow precursors as detected by subsequent soft agar clonogenic assay of mixed phenotype colonies. From a variety of cytokines and conditioned media (CM) tested that included recombinant ovine granulocyte-macrophage colony-stimulating factor (rov GM-CSF) and recombinant human macrophage colony-stimulating factor (rhu M-CSF), the combination of SCM plus LNCM or rov IL-3 supported the maximum numbers of multi-CFC in liquid culture. The development of multi CFC from precursors was demonstrated in bone marrow cells treated with a dose of mafosfamide that inactivated > 98% of clonogenic CFC. Quantitative limit dilution analysis of 10 bone marrow samples revealed an average of one pre-multi CFC per 34147 unfractionated cells (range 1:14230-81433). Pre-multi CFC were enriched 38-fold (average) in the 2.0% of bone marrow cells remaining after depletion of lymphocytes and myeloid/erythroid cells expressing the antigen recognized by monoclonal antibody 175. The quantitative assay also revealed preliminary evidence that the pre-multi CFC may consist of subpopulations differing in their sensitivity to mafosfamide.
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PMID:The in-vitro detection and quantitation of ovine bone marrow precursors of multipotential colony-forming cells. 796 29

In this report, we assess the content of primitive hematopoietic progenitor cells (HPC) that circulate transiently in the peripheral blood (PB) of cancer patients (group A) who received a PB stem-cell-mobilizing regimen that included high-dose chemotherapy (HD-CTX) of 7 g/m2 cyclophosphamide followed by a combination of recombinant hematopoietic growth factors (C-HGF), including either interleukin-3 (IL-3) plus granulocyte-colony stimulating factor (G-CSF), IL-3 plus granulocyte-macrophage colony-stimulating factor (GM-CSF), or a recombinant GM-CSF/IL-3 fusion protein (PIXY-321). These data were compared to the HPC content of PB obtained from a similar group of cancer patients that had not received such a mobilization regimen (group B). Monoclonal antibody staining and fluorescence-activated cell sorting (FACS) were used to identify and isolate cell populations enriched for more differentiated HPC (CD34+HLA-DR+) and more primitive HPC (CD34+HLA-DR-). The content of CD34+HLA-DR+ and CD34+HLA-DR- cells in the PB of group A patients was significantly greater than that observed in the PB of group B patients. In addition, HD-CTX plus C-HGF mobilization resulted in the appearance of greater numbers of PB colony-forming units-granulocyte/macrophage, -granulocyte/erythroid/macrophage/megakaryocyte, and -megakaryocyte (CFU-GM, CFU-GEMM, and CFU-Mk), and burst-forming units-erythroid and -megakaryocyte (BFU-E and BFU-Mk) than those observed in the PB of group B patients (p < 0.01). CD34+HLA-DR- cells isolated from the PB of group A patients were capable of initiating long-term hematopoiesis in vitro, which persisted for 10 weeks, while CD34+HLA-DR- cells obtained from the PB of group B patients were capable of sustaining long-term hematopoiesis in vitro for only 4 weeks. As determined by a limiting dilution analysis of group A PB CD34+HLA-DR- cells, the frequency of cells capable of giving rise to hematopoietic progenitor cells (pre-CFC) after 2 weeks in liquid culture was 4.3% (range 1.0-8.3%). Pre-CFC constituted 0.01% (range 0.001-0.02%) of group A PB mononuclear cells, and 151 pre-CFC were calculated to be present in 1 mL mobilized PB (range 20-310/mL). These results suggest that peripheral blood mononuclear cells (PBMC) collected by leukapheresis following HD-CTX plus C-HGF mobilization contain not only differentiated HPC but also more primitive HPC.
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PMID:Characterization and quantitation of primitive hematopoietic progenitor cells present in peripheral blood autografts. 808 76

Human fetal liver (FL) and neonatal cord blood (CB) granulocyte-monocyte colony-forming progenitor cells (GM-CFC) are unique in their physiological environment and in certain proliferative and differentiative capacities. Tumor necrosis factor (TNF) and interferon (IFN) may inhibit or stimulate the growth of human bone marrow GM-CFC in vitro. The effects of recombinant human (rh) TNF-alpha, rhIFN-alpha, and rhIFN-tau on recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF)-stimulated clonogenic cultures of day 7 GM-CFC from FL and umbilical CB were compared with rhGM-CSF-stimulated GM-CFC from normal human bone marrow (BM). We demonstrate that, in comparison to BM progenitor cells, GM-CFC from both FL and CB were highly resistant to growth inhibition by all three cytokines. Furthermore, clonogenic growth of progenitors from FL and CB was markedly potentiated by IFN-tau in GM-CSF-stimulated cultures and was stimulated by IFN-tau in the absence of GM-CSF. Depletion of potential accessory cells resulted in a marked stimulatory response of CB cells to TNF-alpha, in the presence of GM-CSF, while it did not alter the responses to IFN. The stimulatory effects of IFN-tau and TNF-alpha may be indirectly mediated, at least in part, through induction of increased GM-CSF production and increased GM-CSF receptor expression by fetal cells. Divergent responses of myelopoietic cells, derived from various hematopoietic compartments, to regulatory actions of cytokines may provide a basis for further understanding the role of the environment in maturation and differentiation of granulocytes and monocytes.
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PMID:Differential responses of fetal, neonatal, and adult myelopoietic progenitors to interferon and tumor necrosis factor. 829 33

Peritoneal injection of thioglycollate medium (TM) to mice results in a dramatic increase in total number of peritoneal macrophages within 48 to 72 hours. Unlike resident macrophages, a fraction (10 to 20%) of these newly arrived young macrophages, designated as macrophage colony-forming cells (M-CFC), are highly proliferative and formed macrophage colonies in vitro in the presence of either macrophage or granulocyte-macrophage colony-stimulating factor (M-CSF or GM-CSF). Using a reverse transcriptase polymerase chain reaction (RT-PCR) technique, peritoneal exudate macrophages (PEM) obtained 2 to 5 days after a single TM injection actively expressed mRNA for recombinant murine macrophage inflammatory protein-1 alpha (rmMIP-1 alpha). Yet none or only a trace amount of mRNA for MIP-1 alpha was detected in normal resident macrophages or PEM obtained 7 days after TM treatment. The effect of rmMIP-1 alpha on the induction of exudate M-CFC was investigated. Multiple intraperitoneal (IP) administration of rmMIP-1 alpha caused a marked increase in the total number of peritoneal M-CFC and macrophages similar to but weaker than the increase in TM-injected mice. The total number of neutrophils, mast cells, and eosinophils also increased, but with different kinetics, following multiple injections of rmMIP-1 alpha. rmMIP-1 alpha alone did not stimulate the proliferation of M-CFC, nor did it potentiate their responsiveness to either rmGM-CSF or recombinant human (rh) M-CSF in vitro. Taken together, our results suggest that MIP-1 alpha released by exudate macrophages is a major chemoattractant responsible for the migration of M-CFC from the circulation to the peritoneal cavity during a TM-induced inflammatory response.
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PMID:Induction of murine peritoneal macrophage colony-forming cells by peritoneal administration of macrophage inflammatory protein-1 alpha. 840 40

The effect of 5-fluorouracil (5-FU) pretreatment on human bone marrow (BM) progenitor/stem cells and recovery of hematopoiesis after autologous marrow transplant was studied. Twenty-one patients were treated with 5-FU (15 mg/kg to 45 mg/kg) intravenously (IV) for 1 to 3 days administered 6 to 22 days before BM harvest. Post-FU marrow was infused into 15 patients after high-dose cyclophosphamide, carmustine (BCNU), and VP-16 (CBV). Seventeen patients (historical controls) were treated with CBV and autologous BM transplantation but did not receive 5-FU before marrow harvest. The groups were comparable for diagnosis and prior therapy. In the 5-FU-treated group and control group, median recovery times for platelet count to 50,000/mm3 were 20 and 30 days, respectively (P = .007), and for platelet count to 100,000/mm3, 23 and 38 days, respectively (P = .007), while neutrophil recovery was not significantly altered. In vitro cultures with 1 to 7 growth factors (interleukin-1 [IL-1], IL-3, IL-4, IL-6, colony-stimulating factor-1 [CSF-1], granulocyte-macrophage colony-stimulating factor [GM-CSF], and G-CSF) were performed. In 8 of 10 patients whose marrow was studied before and after 5-FU treatment, the numbers of CFU-C responsive to the combination of GM-CSF and IL-3 was increased 6.15-fold by 5-FU pretreatment. In 4 of these patients, thymidine suicide of GM-CSF- and IL-3-stimulated CFU-C ranged from 17% to 42%. High proliferative potential colony-forming cell (HPP-CFC) was observed in low frequency in normal marrow and patient's marrow before 5-FU treatment. In 11 of 16 patients pretreated with 5-FU, increased numbers of HPP-CFC were noted. GM-CSF and IL-3 interacted synergistically to stimulate HPP-CFC. Multifactor combinations, especially GM-CSF + G-CSF + IL-3 + IL-6 + IL-1 + CSF-1 did not increase total colony count or classic HPP-CFC but did result in altered morphology, producing huge, loose colonies. The marrow from patients pretreated with 5-FU is enriched with multifactor-responsive HPP-CFC, renews in vivo granulopoiesis in a manner comparable with marrow harvests without 5-FU pretreatment, and provides accelerated in vivo platelet recovery. This marrow may be an appropriate target marrow for gene insertion in gene-therapy protocols.
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PMID:Post-5-fluorouracil human marrow: stem cell characteristics and renewal properties after autologous marrow transplantation. 848 10

We have recently demonstrated that 50% of primitive human long-term culture-initiating cells (LTC-IC) are maintained for up to 8 weeks in stroma-dependent cultures in which progenitor-stroma contact is prevented (stroma noncontact), or when progenitors are cultured in medium conditioned by stromal feeders. This indicates that factors responsible for LTC-IC maintenance are present in soluble form in stromal supernatant (SN). Although the picogram concentrations of cytokines present in stromal SN can induce the differentiation of CD34+/HLA-DR- (DR-) cells to clonogenic cells (colony forming cells; CFC), they maintain only 10% of LTC-IC for 5 weeks, suggesting that factors other than these cytokines are required for LTC-IC maintenance. To characterize the factor(s) in stromal SN responsible for LTC-IC maintenance, we purified glycoproteins and proteoglycans (PG) from the SN of the LTC-IC supportive murine marrow stromal fibroblast cell line M2-10B4 by ion exchange high performance liquid chromatography (HPLC). Culture of DR- cells in a combination of M2-10B4-derived PG, but not glycoproteins and picogram concentrations of recombinant human interleukin-6 (IL-6), granulocyte colony-stimulating factor (G-CSF), stem cell factor (SCF), leukemia inhibitory factor (LIF), granulocyte-macrophage colony-stimulating factor (GM-CSF), and macrophage inflammatory protein-1alpha (MIP-1alpha) resulted in the recovery of 96% +/- 8% of LTC-IC maintained in cultures supplemented with unfractionated stromal SN. LTC-IC maintenance was largely retained after digestion of the PG-rich fraction with proteinase K and after dissociative gel filtration chromatography, but was completely abolished following treatment with nitrous acid, which digests heparan sulfate glycosaminoglycans (HS GAG). As for M2-10B4-derived HS GAG, high concentrations of bovine kidney HS GAG, but not bovine tracheal chondroitin sulfate, significantly improved cytokine-mediated LTC-IC maintenance. Maintenance of LTC-IC by these nonmarrow-derived HS GAG was, however, significantly lower than that seen with M2-10B4-derived HS. These studies demonstrate a role for marrow stroma-derived HS GAG in the long-term in vitro maintenance of human LTC-IC. Further structure-function analysis of these HS GAG may have important implications for ex vivo stem cell expansion and gene transfer into hematopoietic progenitors.
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PMID:Stromal fibroblast heparan sulfate is required for cytokine-mediated ex vivo maintenance of human long-term culture-initiating cells. 860 38

Patients with anorexia nervosa (AN) frequently suffer from a mild degree of anemia and from moderate leukopenia on top of their undernourished state and metabolic disarrangements. To evaluate in vitro granulopoiesis and its relationship to cytokine production and undernutrition, we have studied 10 adolescent girls with moderate AN (age range, 13.5-18.0). Study methods included assessment of peripheral blood (PB) granulocyte-macrophage colony-forming cells (GM-CFC) of the patients and age-matched controls, and determination of plasma and conditioned medium (CM) of mononuclear cells levels of IL-1, IL-3, IL-6, granulocyte-macrophage colony-stimulating factor (GM-CSF) and tumor necrosis factor (TNF), all of which may play a role in GM-CFC growth regulation. GM-CFC numbers were significantly lower in AN patients compared with the normal controls (13.09 +/- 11.15 versus 39.33 +/- 26.61 colonies/5 x 10(5) cells, p < 0.01). No inhibitory effect was found in either plasma or CM of patients with AN. However, when CM were applied to non-recombinant human GM-CSF-stimulated normal bone marrow GM-CFC targets, the number of colonies stimulated by the CM of patients with AN was significantly lower than those stimulated by the CM of the controls (73.5 +/- 20.1 versus 113.0 +/- 11.6, p < 0.025). GM-CSF concentrations in CM were significantly lower in patients with AN compared with normal controls, but no such differences were found in IL-1, IL-3, IL-6, or TNF concentrations. These results indicate defective in vitro granulopoiesis in AN patients, manifested by a reduction of both GM-CFC and GM-CSF. It has to be determined whether these changes are the result of the basic disease process or are they due to malnutrition.
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PMID:Defective in vitro granulopoiesis in patients with anorexia nervosa. 879 55

CD34+ cord blood (CB) cells were expanded in stromal cell-free long-term culture (LTC), in the presence of various combinations of interleukin-3 (IL-3), stem cell factor (SCF), IL-6, granulocyte-macrophage colony-stimulating factor (GM-CSF), and anti-transforming growth factor-beta (anti-TGF-beta) antibody. The progenitor cell expansion was evaluated by monitoring the increase of CD34+ and CD34 + CD38- cells over a period of 21 days. The expansion of immature (B1-CFC, HPP-CFC) and of more committed progenitors (CFU-GM, CFU-GEMM, BFU-E) was also evaluated in specific samples. Our results show that (a) CD34+ cell expansion is highly variable depending on the cord blood samples studied, (b) significant correlations between B1-CFC and CD34 + CD38- and between total CFU and CD34+ cell expansion are observed, (c) SCF in combination with IL-3 appears to expand cell subsets that continue to express their CD34 + CD38- phenotype and that generate both immature and committed progenitors, and (d) the addition of IL-6, GM-CSF, or anti-TGF-beta does not significantly improve these expansions.
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PMID:Ex vivo expansion of CD34 + CD38- cord blood cells. 913 38

Administration of hematopoietic growth factors is being used increasingly to obtain populations of blood progenitor/stem cells (PBPC) for clinical transplantation. Here we examined the effect of combining stem cell factor (SCF ) and granulocyte colony-stimulating factor (G-CSF ) versus G-CSF alone in a randomized clinical study involving 62 women with early-stage breast cancer. In the first patient cohorts, escalating doses of SCF were administered for 7 days with concurrent G-CSF administration. At baseline, levels of progenitor cells in the bone marrow or blood were comparable in the different patient groups. As with administration of G-CSF alone, the combination of SCF plus G-CSF did not alter the wide variation in levels of PBPC observed between individuals and did not alter the selective nature of PBPC release, with preferential release of day-14 granulocyte-macrophage colony-stimulating factor (GM-CFC) versus day-7 GM-CFC. However, SCF acted to sustain the levels of PBPC after cessation of growth factor treatment; levels of PBPC were elevated 100-fold at later timepoints compared with G-CSF alone. In addition, the maximum levels of PBPC observed were increased approximately fivefold at day 5 of growth-factor administration. The increased levels of PBPC resulted in significantly increased levels of PBPC obtained by leukapheresis. In a subsequent patient cohort, 3-days pretreatment with SCF was introduced and followed by 7 days concurrent SCF plus G-CSF. The 3-days pretreatment with SCF resulted in an earlier wave of PBPC release in response to commencement of G-CSF. In addition, maximum PBPC levels in blood and PBPC yield in leukapheresis products were further increased. Unexpectedly however, SCF pretreatment resulted in progenitor cells with enhanced self-generation potential. Recloning assays documented the ability of approximately 30% of primary granulocyte-macrophage (GM) colonies from control cell populations to generate secondary GM colonies (n = 1,106 primary colonies examined). In contrast approximately 90% of GM colonies from PBPC after SCF pretreatment generated secondary clones and 65% generated secondary colonies. The action of SCF was not explicable in terms of altered SCF, GM-CSF, or G-CSF responsiveness, but SCF pretreatment was associated with maximum serum SCF levels at the time G-CSF was commenced. These results show that PBPC populations mobilized by different growth factor regimens can differ in their functional properties and caution against solely considering number of harvested progenitor cells without regard to their function.
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PMID:Enhanced levels and enhanced clonogenic capacity of blood progenitor cells following administration of stem cell factor plus granulocyte colony-stimulating factor to humans. 934 20

Scid mice develop a severe, chronic, and lethal IBD 3-6 months after engraftment of gut wall from immunocompetent congenic donors, induced by donor-derived CD4+ T cells migrating from the graft. We have investigated intracellular T-helper type 1 (Th1) cytokines in the spleens of gut wall-transplanted scid mice with IBD. Increased fractions of interferon-gamma (IFN-gamma), tumour necrosis factor-alpha (TNF-alpha) and IL-2-positive CD4+ T cells were found in the spleens of diseased mice compared with control mice. Moreover, a small but significant population of CD4+ T cells which stained positive for granulocyte-macrophage colony-stimulating factor (GM-CSF) was found in scid mice with IBD but was virtually absent in congenic non-scid control mice. Cloning of granulocyte/ macrophage colony-forming cells (G/M-CFC) revealed that both non-transplanted scid mice and scid mice with IBD had an 8-14-fold increase in splenic G/M-CFC compared with control mice. No significant difference in the number of G/M-CFC per total spleen was found between non-transplanted and disease scid mice, although both groups of mice showed a nearly two-fold increase compared with control mice. G/M-CFC were never found in the thymus, liver or lymph nodes of diseased mice. Immunohistochemistry revealed that the multinucleated giant cells observed in the gut wall of diseased mice did not represent haematopoietic foci, but were derived from macrophages. These observations point towards a dominant role for Th1-type CD4+ T cells in the immunopathogenesis of IBD, whereas haematopoiesis does not seem to be affected by the development of the disease.
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PMID:Splenic T helper cell type 1 cytokine profile and extramedullary haematopoiesis in severe combined immunodeficient (scid) mice with inflammatory bowel disease (IBD). 947 77

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