Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Granulocyte and macrophage production after burn injury or burn wound infection is significantly reduced and further compromised by endotoxin (ET). Moreover, the macrophage seems to be the major source of this bone marrow suppression. We sought to determine if recombinant human granulocyte colony-stimulating factor (rhG-CSF), a hematopoietic growth factor that is capable of improving survival after experimental burn wound sepsis, altered postburn macrophage-mediated marrow suppression. Groups of male BDF1 mice (n = 6 to 10) receiving a 15% total body surface area burn +/- infection (B or B + I) with Pseudomonas aeruginosa were injected with 100 ng rhG-CSF twice daily. On day 3, peritoneal-elicited macrophages (5 x 10(6) cells/mL) from either rhG-CSF-treated or control (5% dextrose in water) mice were incubated +/- ET (300 ng/mL). The resultant macrophage supernatant was added to cultures of target marrow granulocyte-macrophage progenitor cells (GM-CFC) at a volume of 1:10. The GM-CFC growth as a percentage of cultures not containing macrophage supernatant were compared and reductions in the number of GM-CFC taken as an index of marrow suppression. Macrophages obtained from B and B + I animals reduced target GM-CFC growth, compared with macrophages from normal animals (B vs. normal animals p < 0.05). In addition, ET-stimulated macrophages induced further bone marrow suppression for all three groups (p < 0.01). Macrophages from granulocyte colony-stimulating factor-treated animals caused significantly less bone marrow suppression, compared with untreated animals for all groups (p < 0.05 to 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Recombinant human granulocyte colony-stimulating factor treatment improves macrophage suppression of granulocyte and macrophage growth after burn and burn wound infection. 750 Apr 9

Haemopoietic growth factors (HGFs) are being administered to patients with neutropenic fever; however, little is known about the endogenous HGF response in these patients. Specific assays were used to study four HGFs, granulocyte (G-) CSF, granulocyte-macrophage (GM-) CSF, macrophage (M-) CSF and interleukin (IL-) 6 levels in the blood of patients with neutropenic fever (46 episodes). For comparison, levels were also measured in three control populations: normals (20), afebrile neutropenic (14), and bacteraemic but not neutropenic patients (20). In febrile patients, levels of G-CSF (median, range) (0.46, < 0.10-142 ng/ml). IL-6 (0.054, 0.005-24.3 ng/ml) and M-CSF (18.5, 9.9-79.1 ng/ml) were elevated compared with afebrile subjects (< 0.10, < 0.10-1.62 ng/ml). (0.008, 0.002-0.024 ng/ml) and (6.45, < 5.0-31.3 ng/ml) respectively. GM-CSF was not elevated (< 0.02, < 0.02-8.0 ng/ml) compared with afebrile subjects (0.021, < 0.02-0.20 ng/ml). Variables significantly associated (P < 0.05) with elevated cytokine levels were determined by multiple regression analyses. Factors associated with G-CSF elevation were fever, neutropenia, pathogen type and raised bilirubin and creatinine. In contrast, neutropenia was not associated with IL-6 elevation although there was an association between IL-6 elevation and fever, Gram-negative and fungal infections and raised creatinine and bilirubin. M-CSF elevation was associated with fever, renal impairment and known pathogen. Elevated G-CSF and IL-6 levels normalized rapidly (hours-days) with the resolution of infection, whereas M-CSF concentrations remained elevated for up to 10 d. Cytokine levels remained elevated in septic neutropenic patients who did not recover. In summary, G-CSF, IL-6 and M-CSF levels were significantly elevated in sepsis. In contrast, GM-CSF levels were not elevated. These studies should assist the development of therapeutic strategies using HGFs in the treatment of sepsis.
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PMID:Endogenous haemopoietic growth factors in neutropenia and infection. 751 65

A patient with Felty's syndrome (FS) and persistent profound neutropenia developed recurrent infections and sepsis syndrome. No impairment of granulocyte-macrophage colony development was observed in vitro. Marrow morphology revealed an absence of mature neutrophil forms despite administration of granulocyte-colony stimulating factor (G-CSF). However, pretreatment with bolus cyclophosphamide (CY) permitted the growth factor to relieve this impairment of late myeloid maturation and resulted in a brisk, albeit short, burst of neutrophilia. This suggests that immune interference in myelopoiesis can be overcome by growth factor administration if immune activity is adequately dampened by immunosuppressive therapy.
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PMID:Sequential administration of cyclophosphamide and granulocyte-colony stimulating factor relieves impaired myeloid maturation in Felty's syndrome. 769 May 20

Peripheral blood stem cells (PBSC) were used to augment autologous bone marrow transplantation (ABMT), aiming to hasten engraftment after high dose treatment in a group of heavily pretreated patients. PBSC were obtained by leukapheresis during the rebound after standard chemotherapy. In 11 patients aged 7-17 years, high dose chemotherapy consisted of busulphan 16 mg/kg orally with melphalan 160 mg/m2 intravenously for seven patients, and melphalan 200 mg/m2 intravenously alone for four. The median number of granulocyte-macrophage colony forming units in the reinfused PBSC was 3.42 x 10(4)/kg (3.03-18.01) and bone marrow 12.4 x 10(4)/kg (4.16-28.6). Neutrophil recovery to > or = 0.5 x 10(9)/l and platelet transfusion independence occurred at a median of 14 days (11-18) and 22 days (9-84) respectively. In five patients the early engraftment was transient with neutrophils again dropping below 0.5 x 10(9)/l then slowly recovering. There was one toxic death due to sepsis. PBSC harvesting in these children was undertaken without interrupting routine chemotherapy and without the use of bone marrow growth factors. In some patients PBSC failed to influence engraftment and the use of combined chemotherapy and growth factor priming for PBSC collection may give improved results.
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PMID:Peripheral blood stem cells used to augment autologous bone marrow transplantation. 790 53

We report a case of sepsis due to Trichosporon cutaneum in a 20-year-old patient with acute promyelocytic leukemia. Neutropenia with a hypocellular marrow persisted for 90 days after two courses of induction chemotherapy with mitoxantrone and ara-C. Amphotericin B, fluconazole, and granulocyte-macrophage colony-stimulating factors were administered. Neutropenia (ANC < 1,000/microL) resolved 14 days after HLA-identical bone marrow transplantation. The patient is in remission, with a performance status of 100%, more than 1 year after transplantation.
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PMID:Long-term survival after allogeneic bone marrow transplantation complicated by trichosporosis. 811 5

Marrow graft failure is a significant cause of morbidity following bone marrow transplantation. A case is reported of marrow graft failure due to neutrophil antibodies. A 13-year-old girl with a large granular lymphocytosis and chronic neutropenia was treated with granulocyte transfusions prior to undergoing a transplant with bone marrow from a partially matched, unrelated donor. Following the transplant, a bone marrow biopsy showed engraftment of donor myeloid cells, but the recipient remained neutropenic. Testing of the serum for neutrophil antibodies found that the recipient's serum had a high-titer neutrophil antibody. Immunoprecipitation studies using the marrow recipient's serum and 125I surface-labeled neutrophils showed that the antibody reacted to the neutrophil-specific antigen NB1. Phenotyping of neutrophils from the marrow donor found that they expressed NB1 antigen, and, in a crossmatch assay, the recipient's serum reacted with donor neutrophils. Despite treatment with granulocyte-macrophage--colony-stimulating factor, the marrow transplant recipient remained neutropenic and died of polymicrobial sepsis and aspergillosis 38 days after the transplant. The presence of high-titer antibodies to neutrophil-specific antigen NB1 in this patient following transplant likely prevented the recovery of her peripheral blood neutrophils and contributed to her death.
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PMID:Prolonged neutropenia resulting from antibodies to neutrophil-specific antigen NB1 following marrow transplantation. 843 Apr 56

To determine whether circulating levels of any of the colony-stimulating factors (CSF) might contribute to the host response in severe sepsis, plasma concentrations of granulocyte CSF (G-CSF), granulocyte-macrophage CSF (GM-CSF), and macrophage CSF (M-CSF) were measured by immunoassays in 20 subjects with meningococcaemia, a bloodstream infection caused by Neisseria meningitidis, that has proven to be a valuable model to study the responses of other inflammatory mediators during sepsis and septic shock in humans. Plasma G-CSF concentrations were transiently elevated in most subjects during the early phase of meningococcaemia, and were higher in subjects with septic shock (mean +/- s.d. = 165 +/- 142 ng/ml, n = 9) compared with those who remained normotensive (mean +/- s.d. = 7 +/- 2 ng/ml, n = 10) (P < 0.05). Peak plasma G-CSF concentrations > 10 ng/ml were associated with the development of septic shock (P < 0.01), disseminated intravascular coagulation (P < 0.01), fulminant infection (P < 0.05), and a fatal outcome (P < 0.01). Plasma GM-CSF concentrations > 1 ng/ml were briefly present in subjects with life-threatening septic shock (1-15 ng/ml, n = 5), and were strongly associated with fulminant meningococcaemia (P < 0.01). Plasma M-CSF concentrations were marginally elevated in all subjects, but were not associated with complications related to or arising from sepsis-induced organ injury. This study demonstrates that plasma levels of G-CSF, GM-CSF and M-CSF show very different responses during meningococcaemia, changes which presumably reflect the different roles played by these mediators in sepsis and, potentially, in septic shock.
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PMID:Differential alterations in plasma colony-stimulating factor concentrations in meningococcaemia. 853 64

Endothelial cells, by virtue of their capacity to express adhesion molecules and cytokines, are intricately involved in inflammatory processes. Endothelial cells have been shown to express interleukin-1 (IL-1), IL-5, IL-6, IL-8, IL-11, IL-15, several colony-stimulating factors (CSF), granulocyte-CSF (G-CSF), macrophage CSF (M-CSF) and granulocyte-macrophage CSF (GM-CSF), and the chemokines, monocyte chemotactic protein-1 (MCP-1), RANTES, and growth-related oncogene protein-alpha (GRO-alpha). IL-1 and tumor necrosis factor-alpha (TNF-alpha) produced by infiltrating inflammatory cells can induce endothelial cells to express several of these cytokines as well as adhesion molecules. Induction of these cytokines in endothelial cells has been demonstrated by such diverse processes as hypoxia and bacterial infection. Recent studies have demonstrated that adhesive interactions between endothelial cells and recruited inflammatory cells can also signal the secretion of inflammatory cytokines. This cross-talk between inflammatory cells and the endothelium may be critical to the development of chronic inflammatory states. Endothelial-derived cytokines may be involved in hematopoiesis, cellular chemotaxis and recruitment, bone resorption, coagulation, and the acute-phase protein synthesis. As many of these processes are critical to the maturation of an inflammatory and reparative state, it appears likely that endothelial-derived cytokines play a crucial role in several diseases, including atherosclerosis, graft rejection, asthma, vasculitis, and sepsis. Genetic and pharmacologic manipulation of endothelial-derived cytokines provides an additional approach to the management of chronic inflammatory diseases.
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PMID:Human endothelium as a source of multifunctional cytokines: molecular regulation and possible role in human disease. 1009 Mar 94

Several colony stimulating factors (CSFs) and cytokines have been successfully used to mobilize hematopoietic cells during myeloablative therapy, bone marrow failure, and transplantation and to provide supportive treatment during sepsis. The use of yeast-derived recombinant human granulocyte-macrophage CSF (rhuGM-CSF) and its interleukin-3 fusion protein, PIXY321, provides an example of issues associated with development programs for recombinant hematopoietic growth factors. Species specificity of rhuGM-CSF, different bioactivity of homologous molecules in mice, and production in laboratory animals of antibodies to human proteins limit preclinical evaluation of such molecules. In clinical trials, rhuGM-CSF was efficacious and well tolerated. The derivation of the recombinant molecule, optimal dosing, scheduling, and confounding effects of concurrent disease and treatments are factors that influence efficacy, adverse responses, and immunogenicity reported in patients treated with CSFs. In comparisons of yeast-derived with Escherichia coli-derived rhuGM-CS, the reduced severity and frequency of all adverse events, preponderance of low-grade adverse events, and similarity of positive clinical response versus adverse events reported for granulocyte CSF support safety and efficacy of yeast-derived rhuGM-CSE Enhanced pharmacoeconomic evaluations are beginning to limit and redirect clinical applications in this class of biological agents.
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PMID:Development of a recombinant growth factor and fusion protein: lessons from GM-CSF. 1036 77

The production and release of granulocytes and macrophages, crucial elements of the host defense system, are significantly impaired after burn injury and sepsis. Prostaglandin E2 (PGE2) is known to be myelosuppressive. We hypothesized that the macrophages contributed to myelopoietic suppression by means of increased PGE2 production, which is induced by thermal injury and sepsis. In this study, peritoneal macrophages were elicited at day 3 from normal mice and from mice who underwent a 15% total body surface area dorsal scald burn with or without Pseudomonas aeruginosa burn wound infection. The macrophages were incubated with or without endotoxin and with or without PGE2 polyclonal antiserum (anti-PGE2) for 18 hours. Macrophage supernatants were then used in co-cultures of bone marrow cells in a clonogenic assay of granulocyte-macrophage colony-forming cells (GM-CFCs) to determine the effect of burn wound infection on the alteration of the proliferative status of the GM-CFCs. Burn wound infection and endotoxin both caused marked reductions in GM-CFC growth in culture (20%-40% as compared with normal, P < .05-.01). The inhibition of GM-CFC growth induced by burn, burn plus infection, or endotoxin was significantly reversed by the addition of anti-PGE2 to the cultures (30%-40% increase in GM-CFC colony growth as compared with cultures without anti-PGE2). These results suggest that PGE2 is a key mediator in the gram-negative sepsis-induced macrophage suppression of granulocyte and macrophage production. The ability of anti-PGE2 to neutralize PGE2 activity may provide a useful means of mitigating myeloid depression that follows postburn sepsis.
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PMID:Macrophage mediated suppression of granulocyte and macrophage growth after burn wound infection reversal by means of anti-PGE2. 1066 41


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