UMLS:C0002874 - FACTA Search

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Query: UMLS:C0002874 (aplastic anemia)
5,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We produced an antiserum by immunizing rabbits with purified human megakaryocyte colony stimulating factor (Meg-CSF). With the use of an anti-Meg-CSF IgG fraction (AM-IgG), we detected immunoreactive Meg-CSF both in human aplastic anemia serum (AAS) and normal serum. Based on our immunological and biological analyses, Meg-CSF appeared to be antigenically as well as functionally distinct from human urinary erythropoietin (EPO) and thrombopoietic stimulating factor. The AM-IgG fraction was able to suppress the ability of both aplastic anemia serum and purified Meg-CSF to promote megakaryocyte colony formation. In addition, the supernatant formed after immune precipitation of the AAS with AM-IgG no longer possessed Meg-CSF-like activity. The AM-IgG did not suppress the ability of EPO, phytohemagglutinin-stimulated leukocyte conditioned medium (PHA-LCM), or PHA-LCM + EPO to promote erythroid, granulocyte-macrophage, or mixed colony formation, respectively. The use of this antibody has further defined the dependency of human megakaryocytopoiesis on Meg-CSF.
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PMID:Studies of human megakaryocytopoiesis using an anti-megakaryocyte colony-stimulating factor antiserum. 308 83

Colony-stimulating factor (CSF) was partially purified from urine of patients with aplastic anemia using DEAE-cellulose and concanavalin A-Sepharose. This partially purified CSF caused significant neutrophilia in the peripheral blood of normal mice by (a) single or continual intraperitoneal injection(s) in vivo, and also revealed a specific activity of 1.4 x 10(3) U/absorbance unit (AU) at 280 nm in vitro, with less than 1 ng/AU endotoxin. In addition, this CSF induced faster recoveries of neutrophils in the peripheral blood and progenitor spleen cells of cyclophosphamide (CY)-treated mice. These findings suggest that the CSF used in this study accelerated the differentiation of the granulocytic cells and the proliferation of granulocyte colony-forming units in the spleen. These effects contributed to a rapid recovery from neutropenia in mice treated with CY.
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PMID:Granulopoietic effects of colony-stimulating factor obtained from urine of patients with aplastic anemia on normal and cyclophosphamide-treated mice. 313 86

Four patients with very severe aplastic anemia refractory to antilymphocyte globulin were administered recombinant human granulocyte-macrophage--colony stimulating factor (GM-CSF). One patient with minimal residual myelopoiesis responded transiently to two separate courses of GM-CSF at 4 and 8 micrograms/kg/d administered intravenously and another course at 4 micrograms/kg/d administered subcutaneously. Septicemia and bilateral pneumonia that had been resistant to conventional therapy resolved. Three patients with no evidence of residual myelopoiesis did not respond to GM-CSF. In one patient, the dose was increased to 32 micrograms/kg/d with no effect on hematopoiesis. Immediate side effects were minimal at GM-CSF doses up to 16 micrograms/kg/d. GM-CSF may, however, have been involved in the pathophysiology of thrombosis of the inferior vena cava in the patient administered 32 micrograms/kg/d. We conclude that GM-CSF does not induce hematopoiesis in long-standing, severe, treatment-resistant aplastic anemia with complete myelopoietic failure. However, in patients with minimal residual myelopoiesis, GM-CSF could be a promising adjuvant therapy for severe infection.
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PMID:Failure of recombinant human granulocyte-macrophage colony-stimulating factor therapy in aplastic anemia patients with very severe neutropenia. 326 96

Cellular and humoral influences of T lymphocytes on human megakaryocyte colony formation in vitro were assessed by using a microagar system. Megakaryocyte colony formation from nonadherent low density T lymphocyte-depleted (NALDT-) bone marrow cells was increased significantly after the addition of aplastic anemia serum (AAS) or purified megakaryocyte colony-stimulating factor (Meg-CSF). The addition of conditioned medium obtained from phytohemagglutinin-stimulated T lymphocytes replaced, at least partially, the requirement for AAS or purified Meg-CSF for the growth of megakaryocyte colonies. The cellular influence of T lymphocytes and T lymphocyte subsets on megakaryocyte colony formation was assessed by removing either T cells from nonadherent peripheral blood mononuclear cells with monoclonal OKT4, OKT8, or OKT3 antibodies plus complement, or by adding back populations of bone marrow or blood T4+ or T8+ lymphocytes, isolated by means of fluorescence-activated cell sorting, respectively, to NALDT--bone marrow or -blood cells. When sorted T cell subpopulations were added to a fixed number of NALDT--bone marrow or -peripheral blood cells in the presence of AAS or Meg-CSF, T4+ cells enhanced megakaryocyte colony formation and T8+ cells decreased it. These studies demonstrate that although the stimulation of megakaryocytic progenitor cells by Meg-CSF may not require the presence of monocytes or T lymphocytes, T4+ lymphocytes enhance and T8+ lymphocytes down-regulate megakaryocyte colony formation induced by Meg-CSF. These observations suggest that the immune system is capable of modulating the proliferative response of human megakaryocytic progenitor cells to Meg-CSF.
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PMID:The influence of T lymphocyte subsets and humoral factors on colony formation by human bone marrow and blood megakaryocyte progenitor cells in vitro. 348 66

We examined the effects of the urinary extracts from aplastic anemia (AA) patients, idiopathic thrombocytopenic purpura (ITP) patients, and normal subjects on murine megakaryocyte/platelet production in vivo and in vitro. In the first study, single doses of AA urinary protein (65%-90% ethanol precipitate) were individually injected intraperitoneally into rats and mice. Blood platelet counts in rats increased significantly 24 hours after the injection. Total megakaryocyte colony-forming units (CFU-Meg) in mouse spleens increased by 24 hours postinjection, peaked at 48 hours and returned to normal levels at 96 hours. Changes in the number of megakaryocyte colonies showed similar patterns of increasing, peaking and returning to normal levels postinjection. In the second study, we compared the effects of some urinary extracts on murine megakaryocyte/platelet production. These observations provided the evidence that AA urinary extracts contain a factor that directly stimulates megakaryocyte progenitor cell proliferation in mouse spleen in vivo as well as the release of platelets from megakaryocytes, and ITP urinary extracts do not contain increased levels of Meg-CSF and/or some other factor that directly stimulates CFU-Meg in vivo, and the decreased blood platelet mass that is clinically characteristic of ITP is not a primary in vivo determinant of the elaboration of these factors.
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PMID:The humoral regulation of megakaryocytopoiesis and platelet production in vivo. 349 44

The labeling of cystine residues with [1-14C]iodoacetic acid showed that urinary preparations from patients with aplastic anemia contained 3.06 X 10(-9) mol of sulfhydryl groups and 2.90 X 10(-7) mol of half-cystine as disulfide bonds in the native state, and 6.36 X 10(-7) mol in the denatured state per absorbance unit of protein, respectively. Sulfhydryl reagent-treated proteins retained full activity of megakaryocyte colony-stimulating factor (Meg-CSF) and erythropoietin (Epo), except with DTNB-treated protein. Reduction-carboxymethylation and reduction-mercuration resulted in complete loss of Meg-CSF and Epo activities, suggesting that one of the essential chemical groups of Meg-CSF and Epo is a disulfide bond. Reduction of disulfide bonds at neutral pH revealed that Meg-CSF is less susceptible to reduction than Epo. Reactivation occurred by spontaneous reoxidation in most of the reduced Meg-CSF (92.6%) and part of the reduced Epo (22.1%). These molecular behaviors may reflect differences in the spatial configurations of Meg-CSF and Epo.
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PMID:Biochemical properties of human urinary megakaryocyte colony-stimulating factor and erythropoietin: the role of sulfhydryl groups and disulfide bonds. 349 99

Recent studies suggest that megakaryocytopoiesis is governed by a dual-level regulatory process, with megakaryocyte colony-stimulating factor (Meg-CSF) primarily influencing proliferation of the committed precursors and thrombopoietin required for megakaryocyte ploidy amplification and for maturation. The authors have examined different sources of Meg-CSF in a microagar culture system with a view to their capacity to enhance megakaryocyte colony formation directly or via an indirect T-lymphocyte- or monocyte-mediated effect. The comparative influences of phytohemagglutinin-stimulated leukocyte-conditioned medium (PHA-LCM), erythropoietin (Epo), sera of patients with severe aplastic anemia, and direct PHA addition to the culture were evaluated for their capacity to enhance megakaryocytic colony formation as well as for the maturation rate of megakaryocytes (Mk) grown in our microagar culture system. Each treatment by itself enhanced colony formation from unseparated low-density cells. Removal of T-lymphocytes and monocytes from the bone marrow sample caused a cessation of the enhancing effect of direct PHA addition to cultures stimulated with Epo, but did not influence the enhancing activities of severe aplastic anemia serum (SAA), PHA-LCM, and Epo. The results show that SAA serum, Epo, and PHA-LCM induced Mk colony formation directly and therefore may act via a common mechanism. Differences, however, were observed concerning their colony-stimulating potency and their influence on the Mk maturation rate.
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PMID:The role of erythropoietin, megakaryocyte colony-stimulating factor, and T-cell-derived factors on human megakaryocyte colony formation: evidence for T-cell-mediated and T-cell-independent stem cell proliferation. 349 18

Urinary extracts from idiopathic thrombocytopenic purpura (ITP) patients, aplastic anemia (AA) patients and normal subjects were investigated for their effects on in vivo platelet production, and both in vitro and in vivo megakaryocytopoiesis in rodents. Daily intraperitoneal injection of 1.2 absorbance units (AU, A278) of urinary protein for three consecutive days induced statistically significant increases in rat blood platelet numbers. This increase was observed for 1 of 4 ITP urinary extracts and for all 3 AA urinary extracts, and occurred 24 h after the final injection. In vitro levels of megakaryocyte colony-stimulating factor (Meg-CSF) in ITP urinary extracts were similar to those of normal urinary extracts, and were in dramatic contrast to the markedly elevated levels of Meg-CSF in extracts from AA urine. A single intraperitoneal injection of 0.5 AU of AA urinary protein induced a significant increase in spleen-derived megakaryocyte colony-forming cells (CFU-meg) 48 h past injection. In the group injected with ITP urinary extract, CFU-meg levels remained within normal limits. These results provide evidence that urinary extracts of ITP patients do not contain increased levels of Meg-CSF and a factor which directly stimulates in vivo CFU-meg production, and that the decrease in circulating platelet numbers that is characteristic of ITP patients is not a primary in vivo determinant in the elaboration of these factors.
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PMID:Effects of urinary extracts from patients with idiopathic thrombocytopenic purpura or aplastic anemia on rodent platelet production and megakaryocytopoiesis. 350 93

Suspensions of enriched human megakaryocytes (MK) devoid of MK progenitors (CFU-MK) undergo complete cytoplasmic maturation in vitro. MK were cultured in the presence of normal human AB serum (NABS) to mimic "normal" development. The rate of maturation was not statistically altered by higher concentrations (10%-20%-30%) of NABS, or by the addition of bovine serum albumin (1.5%-3.0%), but was accelerated in the presence of aplastic anemia serum (AAS). Sera from eight different patients with severe aplastic anemia were effective in accelerating terminal differentiation. MK-CSF, a glycoprotein isolated from AAS, specifically augments MK colony formation by two- to sixfold. Similar doses of MK-CSF were ineffective in altering terminal cytoplasmic maturation. Anti-MK-CSF, a polyclonal antibody prepared against purified MK-CSF, neutralizes the ability of both purified MK-CSF and AAS to promote MK colony formation. However, AAS adsorbed with anti-MK-CSF still retained its ability to accelerate terminal differentiation. Apparently, AAS contains at least two separate humoral factors, which can regulate in vitro human megakaryocytopoiesis: MK-CSF, which stimulates proliferation of the progenitors (CFU-MK), and a maturation factor, which accelerates cytoplasmic maturation of morphologically recognizable megakaryocytes.
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PMID:Effects of megakaryocyte colony-stimulating factor on terminal cytoplasmic maturation of human megakaryocytes. 359 64

3 different methods, (1) assays of CFU-Cs and CFU-Es, (2) responsiveness of CFU-Cs and CFU-Es to low doses of CSF and ESF, respectively and (3) effects of ALG on CFU-C colony formation in vitro, were used to evaluate the quantitative and qualitative defects of stem cells in 28 patients with aplastic anaemia. Some patients with aplastic anaemia who had attained complete remission several years previously, exhibited severely depressed in vitro CFU-C colony formation. This suggests that the defect persists for a long time after clinical complete remission. Residual marrow CFU-Cs and CFU-Es did not have defective responses to the humoral stimulating factors, CSF and ESF. No patient showed a rise of colony number after treatment with ALG in vitro.
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PMID:Quantitative and qualitative analysis of stem cells of patients with aplastic anaemia. 660 68

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