Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P43026 (lipopolysaccharide)
 62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lactoferrin (LF), the iron-binding protein present in the specific granules of mature granulocytes has been identified as colony inhibitory factor (CIF) which suppresses granulocyte--macrophage colony stimulating activity (CSA) production by monocytes and macrophages in vitro and rebound granulopoiesis in vivo. Separation of LF and CIF by isoelectric focusing confirmed that the regions of inhibitory activity corresponded in both to a pH of congruent to 6.5. In addition, the purified immunoglobulin fraction of rabbit anti-human LF antiserum, but not rabbit anti-transferrin (TF), inactivated the capacity of LF and CIF to inhibit CSA production, an effect blocked by prior incubation of anti-LF with neutralizing concentrations of LF. Suppression of CSA production correlated with the iron-saturation of LF; APO-LF (depleted of iron) was only active concentrations greater than 10(-7) M, native LF (8% iron saturated) was active at 10(-15) M, and fully iron-saturated LF inhibited at 10(-17) M. Suppression of CSA production occurred within a 1/2-h preincubation period with human blood monocytes but was reversed by bacterial lipopolysaccharide (LPS). This reversal was dependent on the relative concentrations of LF to LPS. Serum TF, a biochemically similar iron-binding protein which is antigenically distinct from LF, was only minimally active at concentrations greater than 10(-6) M. LF did not inhibit exogenously stimulated human granylocyte and macrophage colony-forming cells or erythropoietin-dependent human or murine erythroid colony- or erythroid burst-forming cells. Microgram quantities of LF acted in vivo to inhibit rebound granulopoiesis and CSA production in CD1 and C57Bl/6 mice pretreated with cyclophosphamide. These results strongly implicate LF as a physiological regulator of granulopoiesis.
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PMID:Identification of lactoferrin as the granulocyte-derived inhibitor of colony-stimulating activity production. 30 88

Activin A/erythroid differentiation factor (EDF), a dimeric polypeptide hormone composed of two beta A subunits, regulates growth and erythroid differentiation of human hematopoietic progenitor and erythroleukemia cells. We have identified activated human peripheral blood monocytes as a natural source of activin A/EDF. In these cells, lipopolysaccharide (LPS) induced rapidly the expression of the beta A subunit mRNAs through protein kinase C-dependent transcriptional regulation. The beta A subunit mRNA expression was also increased by 1,25-dihydroxyvitamin D3, an inducer of macrophage maturation of monocytes. Western analysis with an anti-beta A antibody and an erythroid differentiation bioassay confirmed that the conditioned media of LPS-activated monocytes contained the activin A/EDF protein. We suggest that monocyte/macrophage-derived activin A/EDF may not only modulate hematopoiesis but may also act as a mediator molecule in the diverse physiologic and pathogenetic events in which these cells are involved.
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PMID:Activin A/erythroid differentiation factor is induced during human monocyte activation. 140 87

In studies of the regulation of hematopoiesis, increasing attention has focused on the role of bone marrow stromal cells as rich sources of various cytokines. Present studies indicate that marrow stromal cells and monocytes produce activin A, implicating this new cytokine in the paracrine control of hematopoiesis. Activin A, which was initially recognized as a beta A beta A dimeric gonadal protein, was found to potentiate the proliferation and differentiation of erythroid progenitors; both purified erythroid colony-forming units (CFU-E) and K562 cells possess high affinity receptors specific for activin A. Present studies using Western and Northern blots demonstrate the presence of beta A subunits of activin A in the conditioned medium of monocytes and stromal cells and its RNA transcripts in these cells. The presence of functional and homodimeric beta A beta A activin molecule was confirmed through bioassay with or without a blocking antiserum against activin A or an activin binding protein, follistatin; its presence is further supported by a specific enzyme-linked immunosorbent assay (ELISA) in which a monoclonal antibody reacted only with the beta A beta A dimeric form of this molecule. In other experiments, the production of activin A was found to be regulated by various cytokines and regulators. The production of activin A in monocytes was stimulated more than ninefold by treatment with granulocyte-macrophage colony-stimulating factor (GM-CSF). Activin A expression was also stimulated, albeit less potently, by bacterial lipopolysaccharide (LPS) and gamma-interferon. On the other hand, the expression of activin A in marrow stromal cells was upregulated by incubation with tumor necrosis factor-alpha (TNF-alpha), LPS, and interleukin 1 alpha (IL-1 alpha). Therefore, we propose that the local production of activin A in the microenvironment within bone marrow may fine tune the regulation of steady-state hematopoiesis. In addition, this factor may normally be produced at minimal levels, but under certain situations may be further induced to provide important biological functions.
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PMID:Regulation of production of activin A in human marrow stromal cells and monocytes. 142 3

We have detected and characterized a subpopulation of immunoregulatory cells, i.e., B-helpers capable to enhance the activity of Td-lymphocytes and controlling differentiation of syngeneic hemopoietic stem cells in mouse spleen and bone marrow. B-helpers found in the spleen and lymphatic nodes are resistant to radiation (at a dose of 6 Gr) but are impaired when irradiated at 9 Gr. Manifestation of the helper activity does not require either DNA or RNA synthesis but depends on protein synthesis and is mediated by soluble transmitter substances. Initial activation of B-helpers by lipopolysaccharide or alloantigens does not affect their helper functions. In the absence of T-lymphocytes B-cells do not affect differentiation of hemopoietic stem cells; interaction of B-helpers with differentiating Td-lymphocytes is not genetically restricted. Using preparative electrophoresis, we could isolate fractions of Td-lymphocytes which require or do not require B-helper cells in order to induce change in differentiation of hemopoietic stem cells from mainly erythroid to preferentially granulocyte pathway.
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PMID:[The need of B-helpers for the T-lymphocyte regulation of the process of hematopoietic stem cell differentiation]. 183 Mar 88

The macrophage-derived cytokines interleukin 1 alpha (IL-1 alpha) and tumor necrosis factor-alpha (TNF-alpha) have significant effects on hematopoiesis in vitro and in vivo. Studies in our laboratory have demonstrated that, in vivo, IL-1 alpha and TNF-alpha suppress late stage erythropoiesis while stimulating the macrophage-granulocyte lineage. In the present studies, we have examined the mechanisms of these effects. Normal mice were treated with a single dose of either recombinant murine IL-1 alpha or TNF-alpha (1.25 x 10(6) or 10(5) U/mouse i.p., respectively) with or without pretreatment of the animals with monoclonal anti-murine TNF-alpha antibody at a dose that has been shown to be capable of abrogating endogenous TNF activity induced by lipopolysaccharide (LPS). After 5 days, effects on late-stage erythropoiesis and macrophage formation were measured by determining the number of their progenitors, erythroid colony-forming units (CFU-E) and macrophage colony-forming units (CFU-M), in the spleen. Anti-TNF-alpha antibody treatment significantly abrogated CFU-E suppression by IL-1 alpha but had no effect on the IL-1 alpha-induced stimulation of CFU-M. IL-1 alpha and TNF-alpha suppressed CFU-E in vivo and stimulated CFU-M in the spleens of T-cell- and natural killer (NK)-cell-deficient mice. Neither cytokine suppressed CFU-E colony formation in vitro. These results demonstrate that IL-1 alpha-induced suppression of CFU-E is mediated through induction of TNF-alpha, IL-1 alpha stimulation of CFU-M was independent of TNF-alpha, and the in vivo hematopoietic effects of these cytokines do not strictly require intact T- and NK-cell function for activity.
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PMID:Negative regulators of in vivo erythropoiesis: interaction of IL-1 alpha and TNF-alpha and the lack of a strict requirement for T or NK cells for their activity. 199 91

In order to clarify the mechanism(s) of increased splenic hematopoiesis noted in lipopolysaccharide (LPS)-injected mice, the effects of spleen cell-conditioned medium (SPCM) on megakaryocyte colony (CFU-meg) formation and early erythroid (BFU-e) differentiation were investigated. After spleen cells from LPS-injected mice were incubated for 3 days, the SPCM was assayed for megakaryocyte colony-stimulating factor (Meg-CSF) in CFU-meg assay and for burst-promoting activity (BPA) and erythropoietin (Epo) in erythroid colony assays (i.e., CFU-e, BFU-e). Colony formation of CFU-meg and BFU-e peaked with the addition of 30 and 10-15% SPCM, respectively. Spleen cells from LPS-injected mice produced Meg-CSF and BPA when compared with controls. However, conditioned medium from spleen cells depleted of phagocytic cells had low Meg-CSF and BPA. SPCM did not contain detectable quantities of Epo. It appears likely that local splenic production of Meg-CSF and BPA may affect proliferation of CFU-meg and erythroid progenitor cells in the spleen.
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PMID:Megakaryocyte colony-stimulating factor and burst-promoting activity in LPS-treated mouse spleen cell-conditioned medium. 326 23

We investigated the in vivo effects of a crude extract from the urine of aplastic anemia patients (AA urinary extract) on erythroid precursor cells in the femoral bone marrow and spleens of normal adult mice. A single intraperitoneal injection of AA urinary extract induced a significant increase in the number of splenic erythroid burst-forming units (BFU-e) and erythroid colony-forming units (CFU-e) within 24 h after injection. We then injected pure recombinant erythropoietin (Epo) equivalent to the amount present in the urinary extract. This addition increased the number of splenic CFU-e by almost the same degree as the amount induced by the AA urinary extract 24 h after injection, but failed to elicit any change in the number of splenic BFU-e. In other studies, mice were injected with the same amount of lipopolysaccharide (LPS) and/or pure Epo as that present in the AA urinary extract. Experiments with Limulus amebocyte lysate-adsorbed (endotoxin-depleted) or nonadsorbed (endotoxin-containing) AA urinary extracts showed that endotoxin contamination interfered with the increase in numbers of marrow CFU-e and enhanced the increase in splenic CFU-e numbers induced by pure Epo or Epo activity in the AA urinary extract. The number of splenic BFU-e, however, was not affected by administration of LPS and/or Epo or by adsorbed endotoxin. These data suggest that AA urinary extract contains a stimulating activity for mouse splenic BFU-e, and that this activity is not attributable to the Epo activity or endotoxin contamination within the urinary extract.
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PMID:Effects of an aplastic anemia urinary extract on mouse erythroid progenitor cells in vivo. 336 64

Intravenous (i.v.) injection of mice with lipopolysaccharide (LPS), and the proteolytic enzymes trypsin and proteinase, mobilizes pluripotent haemopoietic stem cells (CFU-s) as well as granulocyte-macrophage progenitor cells (GM-CFU) and the early progenitors of the erythroid lineage (E-BFU) from the haemopoietic tissues into the peripheral blood. We investigated the involvement of the complement (C) system in this process. It appeared that the early mobilization induced by LPS and other activators of the alternative complement pathway, such as Listeria monocytogenes (Lm) and zymosan, but not that induced by the proteolytic enzymes, was absent in C5-deficient mice. The mobilization by C activators in these mice could be restored by injection of C5-sufficient serum, suggesting a critical role for C5. The manner in which C5 was involved in the C activation-mediated stem cell mobilization was studied using a serum transfer system. C5-sufficient serum, activated in vitro by incubation with Lm and subsequently liberated from the bacteria, caused mobilization in both C5-sufficient and C5-deficient mice. C5-deficient serum was not able to do so. The resistance of the mobilizing principle to heat treatment (56 degrees C, 30 min) strongly suggests that it is identical with the C5 split product C5a, or an in vivo derivative of C5a. This conclusion was reinforced by the observation that a single injection of purified rat C5a into C5-deficient mice also induced mobilization of CFU-s.
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PMID:Complement split product C5a mediates the lipopolysaccharide-induced mobilization of CFU-s and haemopoietic progenitor cells, but not the mobilization induced by proteolytic enzymes. 353 67

Pure murine colony-stimulating factor-1 (CSF-1) was assessed for its effects in vivo in mice pretreated seven days earlier with a sublethal dosage of cyclophosphamide. The multipotential (CFU-GEMM), erythroid (BFU-E), and granulocyte-macrophage (CFU-GM) progenitor cells in these mice were in a slowly cycling or noncycling state. Intravenous administration of 20,000 units of CSF-1 to these mice stimulated the hematopoietic progenitors into a rapidly cycling state in the marrow and spleen within three hours. Significant increases in absolute numbers of marrow and spleen CFU-GM and spleen BFU-E and CFU-GEMM were also detected. No endotoxin was detected in the CSF-1 preparation by Limulus lysate assay, and treatment of CSF-1 at 100 degrees C for 20 to 30 minutes completely inactivated the in vitro and in vivo stimulating effects. The effects of CSF-1 were not mimicked by the in vivo administration of 0.1 to 10 ng Escherichia coli lipopolysaccharide. These results suggest that the effects of CSF-1 in vivo were not due to contaminating endotoxin or to a nonspecific protein effect. CSF-1 did not enhance colony formation by BFU-E or stimulate colony formation by CFU-GEMM in vitro, thus suggesting that at least some of the effects of CSF-1 noted in vivo are probably indirect and mediated by accessory cells.
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PMID:The influence in vivo of murine colony-stimulating factor-1 on myeloid progenitor cells in mice recovering from sublethal dosages of cyclophosphamide. 354 24

Purified murine colony-stimulating factors (CSF) recombinant interleukin 3 (IL-3), natural CSF-1, and recombinant granulocyte-macrophage (GM) CSF were assessed in vivo for their effects on BDF1 mouse bone marrow and spleen granulocyte-macrophage (CFU-GM), erythroid (BFU-E), and multipotential (CFU-GEMM) progenitor cells in untreated mice and in mice pretreated with purified iron-saturated human lactoferrin (LF). The CSF and LF preparations did not contain detectable endotoxin (less than 0.1 ng). Mice pretreated with LF were more sensitive to the effects of CSF. In mice pretreated with LF, 2,000 U IL-3 or 20,000 U CSF-1 significantly enhanced the cycling status and absolute numbers of all progenitors, whereas 20,000 U GM-CSF significantly increased the cycling status of CFU-GM and CFU-GEMM, but had no effect on cycling of BFU-E or on numbers of any of the progenitors. The effects of CSF in mice pretreated with LF were not mimicked by 0.1-100 ng E. coli lipopolysaccharide.
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PMID:Comparative effects in vivo of recombinant murine interleukin 3, natural murine colony-stimulating factor-1, and recombinant murine granulocyte-macrophage colony-stimulating factor on myelopoiesis in mice. 354 76


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