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: UMLS:C0153470 (Spleen)
4,015 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Levels of mature lymphocytes, granulocytes, macrophages, platelets, their progenitor cells, and cytokines were monitored in the blood, marrow, and spleen during fatal or nonfatal murine malarial infections. In all four malaria models, before anemia developed, there was a lymphopenia, a rapid lymphocyte depletion in the marrow with a compensating rise in spleen lymphocytes, thrombocytopenia with increased megakaryocytic progenitor cell numbers, and monocyte increases in the bone marrow and later the spleen. The development of anemia was associated with a monocytosis and neutropenia, an increase in granulomonocytic progenitor cells in the spleen, and a reduction of spleen lymphocytes. Spleen granulocytes, monocytes, and their progenitor cells increased two- to threefold more in nonfatal than in fatal malaria and the spleen lymphocyte pool became severely depleted in fatal malaria. The data suggest that a defective effector cell response was of importance for the fatal outcome of the disease. Other than an early rise in serum macrophage colony stimulating factor levels in fatal infections, changes in levels of the regulators of these effector cells did not correlate well with the outcome of the infection.
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PMID:Changes in hemopoietic and regulator levels in mice during fatal or nonfatal malarial infections. II. Nonerythroid populations. 214 42

Previous efforts from our laboratory have investigated the mechanisms responsible for dimethylnitrosamine (DMN)-induced suppression of T cell responses. These studies suggested that such changes in T cell activity were most likely to be due to alterations in the down-regulatory signals controlling T cell activation. Accordingly, the production of PGE2, a potent inhibitor of T cell activation, was examined in macrophages obtained from animals exposed to either DMN or vehicle in vivo. The production of PGE2 was determined in macrophages representing various stages of activation (responsive, primed and fully activated) and various stages of differentiation (CSF-1-derived or GM-CSF-derived macrophages). All peritoneal macrophages obtained from DMN-exposed animals demonstrated enhanced production of PGE2 following stimulation with either endotoxin or IFN-gamma as compared to macrophages obtained from vehicle-exposed macrophages. Moreover, the enhanced levels of PGE2 were due to increased PGE2 production rather than to shifts in the kinetics of PGE2 production and utilization. CSF-1- and GM-CSF-induced bone-marrow-derived macrophages (BMDM) produced minimal levels of PGE2, regardless of the in vitro stimulation of cells obtained from either vehicle or DMN treatment groups. Spleen cells obtained from DMN-exposed animals produced significantly higher amounts of PGE2 following endotoxin stimulation compared to control splenocytes. Splenocytes from DMN-exposed animals also demonstrated a suppressed proliferative response to the mitogen Con A. However, when splenocytes from DMN-exposed animals were co-cultured with indomethacin they demonstrated Con A-stimulated proliferative responses similar to the responses of vehicle control splenocytes. These results demonstrate that DMN exposure results in increased PGE2 production by macrophages and that this increase in PGE2 production may be responsible for suppressed T cell responses observed in DMN-exposed animals.
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PMID:Augmented macrophage PGE2 production following exposure to dimethylnitrosamine in vivo: relevance to suppressed T cell responses. 280 73

We previously reported that highly purified bone marrow-derived macrophage precursors can exert strong spontaneous cytotoxicity against YAC-1 tumor cells, Candida albicans, and protozoa of the genus Leishmania. In the present paper, evidence is shown that macrophage precursors in normal untreated mice are not confined to the bone marrow compartment but can also be found in the spleen. These organ-associated cells, which have the same buoyant density as large granular lymphocytes, have been positively sorted by means of an indirect rosetting technique employing the macrophage-specific monoclonal antibodies F4/80 and M143. The rosetting fractions represented an extremely homogeneous population of macrophage precursors characterized by high candidacidal and natural killer activity and by a strong proliferative response to the macrophage-specific colony-stimulating factor CSF-1. Spleen- and bone marrow-derived macrophage precursors differed in their target selectivity. In addition, the mature macrophages derived in vitro from these two precursor populations displayed striking differences in their candidacidal activity. The implications of these findings in relationship to heterogeneity in the macrophage differentiation line are discussed.
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PMID:Functional heterogeneity of murine macrophage precursor cells from spleen and bone marrow. 348 36

An interleukin 1 alpha (IL-1 alpha) cDNA probe and an IL-1 responsive T-cell clone (D10.G4; half-maximal stimulation, 0.1-1 pM) have been used to study the production of IL-1 by primary murine cell populations, particularly macrophages and dendritic cells. Spleen and peritoneal macrophages produced IL-1 mRNA and released biologically active IL-1 when challenged with lipopolysaccharide (LPS). Induction of IL-1 was evident over a dose range of 0.01-10 micrograms of LPS per ml, and maximal mRNA levels were maintained from 4 to 20 hr. Several other stimuli did not induce IL-1 in cultured macrophages, including phorbol 12-myristate 13-acetate, gamma-interferon, Con A, macrophage colony-stimulating factor, IL-3, cachectin, and activated T cells. Activated T cells could markedly reduce the response of peritoneal macrophages to LPS. When other cell types were compared with macrophages, keratinocytes had high levels of IL-1 mRNA, apparently in response to endogenous LPS. However B and T lymphocytes did not yield detectable IL-1 during proliferative responses to LPS and Con A, respectively, while dendritic cells produced little or no IL-1 when challenged with a battery of stimuli. Therefore, IL-1 may not be required for the potent accessory function of dendritic cells in lymphocyte mitogenesis. The results indicate that macrophages and dendritic cells have different secretory capacities. The macrophage is the principal leukocyte that synthesizes IL-1, and select stimuli increase and decrease the levels of macrophage IL-1 mRNA.
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PMID:Induction of murine interleukin 1: stimuli and responsive primary cells. 349 97

Dendritic cells, such as epidermal Langerhans cells, play a crucial role for the antigen-specific priming of T cells. We have addressed the question whether dendritic cells present collagen, a major protein component in tissues through which dendritic cells migrate, i.e. the basement membrane, dermis, and synovial tissue. Langerhans cells, spleen cells and peritoneal macrophages were compared for antigen-presenting capacity using a panel of mouse T cell hybridomas reactive with different determinants on type II collagen, myelin basic protein, ovalbumin and pepsin. Langerhans cells did not present any of the type II collagen determinants, unless the antigen was administered as a 15-mer peptide, but did present myelin basic protein, ovalbumin and pepsin. Spleen cells and peritoneal macrophages, in contrast, presented all type II collagen determinants. This biased antigen presentation was also observed when Langerhans cells were pulsed with antigen in vivo. The inability to present type II collagen is related to the collagen sequence as such, since both native type II collagen, type II collagen alpha chains, as well as a type II collagen determinant incorporated in type I collagen, were not presented by Langerhans cells. In addition, granulocyte/macrophage colony-stimulating factor-expanded blood dendritic cells displayed the same biased antigen presentation, suggesting that the inability to present collagen is not restricted to dendritic cells localized in epidermis. B cell-deficient mice could prime a type II collagen-reactive T cell response, thus excluding B cells as obligatory antigen-presenting cells for the priming of collagen-reactive T cells. We suggest that neither Langerhans cells nor B cells, but macrophages are the primary antigen-presenting cells in the immune response towards type II collagen.
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PMID:Macrophages, but not dendritic cells, present collagen to T cells. 754 14

We produced transgenic mice expressing T cell receptor-alpha beta chain genes, derived from the chicken ovalbumin (OVA)-specific I-Ad-restricted CD4+CD8- T helper cell clone 7-3-7. In transgenic mice with H-2d genetic background (Tg-d mice), delayed-type hypersensitivity (DTH) was induced in the hind footpad by one inoculation with OVA without any previous sensitization, suggesting that naive T cells have the potential to be involved in DTH response. Spleen cells from nonimmunized Tg-d mice showed a strong T cell proliferative response to in vitro stimulation with OVA. Furthermore, these spleen cells produce cytokines including interleukin(IL)-2, IL-3, interferon-gamma, granulocyte/macrophage colony-stimulating factor, macrophage inflammatory protein (MIP)-1 alpha and MIP-1 beta, which may play an important role in the attraction of mononuclear cells to an antigen-challenging site.
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PMID:Naive T cells can mediate delayed-type hypersensitivity response in T cell receptor transgenic mice. 802 13

Studies were undertaken to produce monoclonal antibodies directed against the murine receptor for macrophage colony-stimulating factor (M-CSF or CSF-1). Sprague-Dawley rats were injected with lysates prepared from a murine myelomonocytic cell line (RAW cell line) that has high levels of M-CSF receptors. Spleen cells from immunized animals were fused with murine plasmacytoma cells and expanded. Supernatants from these cells caused inhibition of 125I-CSF binding to either RAW cells or normal murine marrow cells. Antibody-producing cells were cloned by limiting dilution and by colony growth in agar. The antireceptor antibodies appear specific as they neutralize colony formation by M-CSF but have little or no effect on colony growth in response to the other hemopoietic growth factors granulocyte CSF (G-CSF), granulocyte-macrophage CSF (GM-CSF), interleukin-3 (IL-3) or erythropoietin. These antibodies should aid in defining the role of M-CSF in hemopoiesis in vivo.
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PMID:Preparation of a monoclonal antibody directed against the receptor for murine colony-stimulating factor-1. 846 60

IL-13, a recently identified Th2 cytokine, shares some, but not all, IL-4 functions, including inhibition of monocyte and macrophage activation, stimulation of human B cells, and induction of growth and differentiation of mouse bone marrow cells in vitro. We have now tested the in vivo effects of recombinant mouse IL-13 (rIL-13) from stably transfected, high expressing BW5147 thymoma cells. After purification by anion exchange chromatography, rIL-13 was administered in the peritoneal cavity of BALB/c mice via osmotic pump for 7 days. Spleens from the rIL-13-treated mice were significantly enlarged compared with control spleens due to increased cellularity. In particular, increased numbers of immature erythroblasts and megakaryocytes were observed in splenic sections after rIL-13 treatment. Spleen cells from rIL-13-treated mice showed greatly increased responsiveness in vitro to recombinant forms of mouse IL-3, mouse granulocyte-macrophage CSF, or human CSF-1 and, to a lesser extent, to mouse IL-4 or IL-13. Moreover, the rIL-13-treated mice also showed significant increases in CFU-E, CFU-C, and erythroid burst colonies in the spleen, further indicating the presence of increased numbers of hemopoietic precursors. Hematologic analyses indicated that rIL-13 treatment induced slight anemia and striking monocytosis. Finally, spleen cells from rIL-13-treated mice produced significantly more IL-6 upon LPS stimulation. Interestingly, the strong Th2 response induced by Nippostrongylus brasiliensis infection was also accompanied by an increase in hemopoietic precursor frequencies in the spleen. Collectively, these data indicate that exogenous rIL-13 induces extramedullary hemopoiesis in mice and suggest that endogenous IL-13 may contribute to replenishment of effector cells during strong Th2 responses.
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PMID:Continuous administration of Il-13 to mice induces extramedullary hemopoiesis and monocytosis. 861 37

In experimental studies in mice, dietary supplementation with n-3 fatty acids (FA) alleviates inflammation and increases resistance to infection. Nevertheless, TNF production capacity was found to be increased in n-3 FA-fed mice. We previously found increased relative spleen weights in n-3 FA-fed mice. In this study, the nature of this increased spleen size was further investigated. Spleen cellularity was increased significantly in mice fed n-3 FA (fish oil 15% w/w), compared with controls fed corn oil (15%) or normal lab chow (p < 0.05). Experiments with T cell-deficient nude mice and experiments using macrophage depletion through liposomal dichloromethylene-biphosphonate revealed that the increase in spleen cellularity is T cell independent and largely due to macrophage accumulation in the spleen. Accumulation of marginal zone and red pulp macrophages was histologically and immunohistochemically confirmed. n-3 FA induced peripheral blood monocytosis and an aspecific increase in bone marrow cellularity. Postendotoxin circulating TNF concentrations were increased significantly in n-3 FA-fed mice compared with controls. Splenectomy did not abolish this increase in circulating TNF. However, after macrophage depletion through liposomal dichloromethylene-biphosphonate, circulating TNF was not detectable after endotoxin challenge. Circulating concentrations of CSF-1 did not differ between the various experimental groups. It is suggested that the cellular changes observed relate to increased constitutive production of TNF.
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PMID:Dietary n-3 fatty acids increase spleen size and postendotoxin circulating TNF in mice; role of macrophages, macrophage precursors, and colony-stimulating factor-1. 895 8

IL-6 was transiently expressed in sera of mice after a bolus intravenous injection with LPS and it peaked 2 h later. Intravenous administration of M-CSF at 250 micrograms/kg/day for 5 days prior to an injection of 25 micrograms/kg of LPS elevated the serum IL-6 level 10-fold higher than that of mice which were not given M-CSF. Although M-CSF had no effect on the number of macrophages in alveoli and peritoneal cavity, it tripled the number of spleen macrophages and increased macrophage-progenitor cells 7-fold when injected intravenously. Spleen macrophages from M-CSF-injected mice produced 5-fold more IL-6 in response to LPS-stimulation in-vitro. However, M-CSF-injection had lesser effects on LPS-induced IL-6 production from liver, alveolar and peritoneal macrophages. Exogenously administered M-CSF was detected at higher concentration and for longer duration in the spleen than in any other organs examined. Spleen macrophages incubated in-vitro with more than 1000 U/ml of M-CSF for 3 days also produced more LPS-induced IL-6 than untreated cells. These results indicate that intravenously administered M-CSF not only enhances macrophage development in the spleen, but also primes mature macrophages for cytokine production.
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PMID:Intravenously administered macrophage colony-stimulating factor (M-CSF) specifically acts on the spleen, resulting in the increasing and activating spleen macrophages for cytokine production in mice. 928 39


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