Prolonged eosinophil accumulation in allergic lung interstitium of ICAM-2 deficient mice results in extended hyperresponsiveness.
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ICAM-2-deficient mice exhibit prolonged accumulation of eosinophils in lung interstitium concomitant with a delayed increase in eosinophil numbers in the airway lumen during the development of allergic lung inflammation. The ICAM-2-dependent increased and prolonged accumulation of eosinophils in lung interstitium results in prolonged, heightened airway hyperresponsiveness. These findings reveal an essential role for ICAM-2 in the development of the inflammatory and respiratory components of allergic lung disease. This phenotype is caused by the lack of ICAM-2 expression on non-hematopoietic cells. ICAM-2 deficiency on endothelial cells causes reduced eosinophil transmigration in vitro. ICAM-2 is not essential for lymphocyte homing or the development of leukocytes, with the exception of megakaryocyte progenitors, which are significantly reduced. (+info)
Induction of CYP1A2 by phenobarbital in the livers of aryl hydrocarbon-responsive and -nonresponsive mice.
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The effects of phenobarbital treatment on the expression of the cytochrome P-450 (CYP or P-450) enzyme CYP1A2 in the livers of mice of various strains were examined. Phenobarbital induced the expression of CYP1A2 at the levels of mRNA, protein, and enzyme activity (methoxyresorufin O-demethylation and metabolic activation of 2-amino-3-methylimidazo[4,5-f]quinoline) in both aryl hydrocarbon-responsive [C57BL/6NCrj (C57BL/6), C3H/HeJSlc] and -nonresponsive (DBA/2NCrj, AKR/JSea, NZB/NSlc) mouse strains. The induction of CYP2B10, which is known as a phenobarbital-inducible P-450 in mice, was prominent in the livers of all five strains examined, whereas clear inductive effects on the P-450 CYP2B9 were not observed in female C57BL/6 and female DBA/2NCrj mice. These results indicate that CYP1A2 is a member of the family of phenobarbital-inducible genes in mice and suggest that the aryl hydrocarbon receptor-dependent induction pathway is not involved in the induction of CYP1A2. This concept is in accordance with those proposed by other laboratories recently using the AhR knockout mice. The following are new observations of this report. The magnitude of the increases in the CYP1A2 mRNA, protein, and enzyme activities were comparable among these three levels (ranging from 1.4- to 3. 1-fold), suggesting that the induction of CYP1A2 by phenobarbital is mainly determined at a pretranslational level. Cyclobarbital, pentobarbital, and secobarbital also induced CYP1A2 mRNA in primary culture hepatocytes from C57BL/6 mice. Barbital, in contrast, did not show any clear inductive effect on CYP1A2 mRNA. (+info)
Strain-dependent induction of allergic sensitization caused by peanut allergen DNA immunization in mice.
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To investigate the potential application of allergen gene immunization in the modulation of food allergy, C3H/HeSn (C3H) mice received i.m. injections of pAra h2 plasmid DNA encoding one of the major peanut allergens, Ara h2. Three weeks following pDNA immunization, serum Ara h2-specific IgG2a, IgG1, but not IgE, were increased significantly in a dose-dependent manner. IgG1 was 30-fold higher in multiply compared with singly immunized mice. Ara h2 or peanut protein injection of immunized mice induced anaphylactic reactions, which were more severe in multiply immunized mice. Heat-inactivated immune serum induced passive cutaneous anaphylaxis, suggesting that anaphylaxis in C3H mice was mediated by IgG1. IgG1 responses were also induced by intradermal injection of pAra h2, and by i.m. injection of pOMC, the plasmid DNA encoding the major egg allergen protein, ovomucoid. To elucidate whether the pDNA immunization-induced anaphylaxis was a strain-dependent phenomenon, AKR/J and BALB/c mice also received multiple i.m. pAra h2 immunizations. Injection of peanut protein into these strains at weeks 3 or 5 following immunization did not induce reactions. Although IgG2a was increased significantly from week 2 in AKR/J mice and from week 4 in BALB/c mice and remained elevated for at least 6 wk, no IgG1 or IgE was detected. These results indicate that the type of immune responses to pDNA immunization in mice is strain dependent. Consequently, models for studying human allergen gene immunization require careful selection of suitable strains. In addition, this suggests that similar interindividual variation is likely in humans. (+info)
Induction of autoimmunity by multivalent immunodominant and subdominant T cell determinants of La (SS-B).
(4/937)
We investigated the consequences of altering the form and valence of defined autodeterminants on the initiation and spreading of experimentally induced La/Ro autoimmunity. Anti-La and Ro (SS-A) Ab responses were monitored following immunization of healthy mice with defined immunodominant and subdominant T cell determinants of the La (SS-B) autoantigen synthesized as either monomeric or multiple antigenic (MAP) peptides. Abs to mouse La (mLa) developed faster and were of higher titer in mice immunized with the subdominant mLa25-44 MAP compared with mice immunized with the 25-44 monomer. Rapid intermolecular spreading of the autoimmune response to 60-kDa Ro was observed in AKR/J mice immunized with mLa25-44 MAP, but not in mice immunized repeatedly with monomeric peptide. A/J mice immunized and boosted with the known tolerogenic mLa287-301 determinant delivered as monomeric peptide failed to develop Abs to either intact mLa or mLa287-301 peptide. However, immunization with the multivalent mLa287-301 peptide led to the rapid production of high titer mLa autoantibodies associated with a proliferative T cell response to the mLa287-301 peptide. The data suggested that the enhanced immunogenicity of MAPs was not due to augmented Ag presentation or T cell stimulation. However, MAP-, but not monomer peptide-, containing immune complexes were potent substrates for Ab-dependent fixation of complement. These results demonstrate that the form of Ag responsible for inducing autoimmunity can profoundly influence the nature and magnitude of the immune response. Thus, molecular mimicry of tolerogenic and nontolerogenic self determinants might trigger autoimmunity under conditions of altered valence. (+info)
Conjugated linoleic acid rapidly reduces body fat content in mice without affecting energy intake.
(5/937)
Recent reports have demonstrated that conjugated linoleic acid (CLA) has effects on body fat accumulation. In our previous work, CLA reduced body fat accumulation in mice fed either a high-fat or low-fat diet. Although CLA feeding reduced energy intake, the results suggested that some of the metabolic effects were not a consequence of the reduced food intake. We therefore undertook a study to determine a dose of CLA that would have effects on body composition without affecting energy intake. Five doses of CLA (0.0, 0.25, 0.50, 0.75, and 1.0% by weight) were studied in AKR/J male mice (n = 12/group; age, 39 days) maintained on a high-fat diet (%fat 45 kcal). Energy intake was not suppressed by any CLA dose. Body fat was significantly lower in the 0.50, 0.75, and 1.0% CLA groups compared with controls. The retroperitoneal depot was most sensitive to the effects of CLA, whereas the epididymal depot was relatively resistant. Higher doses of CLA also significantly increased carcass protein content. A time-course study of the effects of 1% CLA on body composition showed reductions in fat pad weights within 2 wk and continued throughout 12 wk of CLA feeding. In conclusion, CLA feeding produces a rapid, marked decrease in fat accumulation, and an increase in protein accumulation, at relatively low doses without any major effects on food intake. (+info)
Factors regulating stem cell recruitment to the fetal thymus.
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Colonization of the thymic rudiment during development is initiated before vascularization so that hemopoietic precursors must leave the pharyngeal vessels and migrate through the perithymic mesenchyme to reach the thymus, suggesting that they may be responding to a gradient of chemoattractant factors. We report that diffusible chemoattractants are produced by MHC class II+ epithelial cells of the fetal thymus, and that the response of precursors to these factors is mediated via a G protein-coupled receptor, consistent with factors being members of the chemokine family. Indeed, a number of chemokine receptors are expressed by thymic precursors, and several chemokines are also expressed by thymic epithelial cells. However, these chemokines are also expressed in a tissue that is unable to attract precursors, although the thymus expressed chemokine, TECK, is expressed at higher levels in thymic epithelial cells and we show that it has chemotactic activity for isolated thymic precursors. Neutralizing Ab to TECK, however, did not prevent thymus recolonization by T cell precursors, suggesting that other novel chemokines might be involved in this process. In addition, we provide evidence for the involvement of matrix metalloproteinases in chemoattractant-mediated T cell precursor recruitment to the thymus during embryogenesis. (+info)
Self-reactive T cells selected on thymic cortical epithelium are polyclonal and are pathogenic in vivo.
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Positive selection of CD4+ T cells requires that the TCR of a developing thymocyte interact with self MHC class II molecules on thymic cortical epithelium. In contrast, clonal deletion is mediated by dendritic cells and medullary epithelium. We previously generated K14 mice expressing MHC class II only on thymic cortical epithelium. K14 CD4+ T cells were positively, but not negatively, selected and had significant in vitro autoreactivity. Here, we examine the function of these autoreactive CD4+ T cells in more detail. Analysis of a series of K14-derived T hybrids demonstrated that the autoreactive population of CD4+ T cells is phenotypically and functionally diverse. Purified K14 CD4+ T cells transferred into lethally irradiated wild-type B6 mice cause acute graft vs host disease with bone marrow failure. Further, these autoreactive CD4+ T cells cause hypergammaglobulinemia and the production of autoantibodies when transferred into unirradiated wild-type hosts. Thus, positive selection by normal thymic cortical epithelial cells, unopposed by negative selection, produces polyclonal CD4+ T cells that are pathologic. (+info)
Sequences between the enhancer and promoter in the long terminal repeat affect murine leukemia virus pathogenicity and replication in the thymus.
(8/937)
We previously showed that the 93-bp region between the enhancer and promoter (named DEN for downstream of enhancer) of the long terminal repeat (LTR) of the MCF13 murine leukemia virus is an important determinant of the ability of this virus to induce thymic lymphoma. In this study we observed that DEN plays a role in the regulation of virus replication in the thymus during the preleukemic period. A NF-kappaB site in the DEN region partially contributes to the effect of DEN on both lymphomagenicity and virus replication. To further study the effects of DEN and the NF-kappaB site on viral pathogenicity during the preleukemic period, we examined replication of wild-type and mutant viruses with a deletion of the NF-kappaB site or the entire DEN region in the thymus. Thymic lymphocytes which were infected with wild-type and mutant viruses were predominantly the CD3(-) CD4(+) CD8(+) and CD3(+) CD4(+) CD8(+) cells. The increase in infection by wild-type virus and both mutant viruses of these two subpopulations during the preleukemic period ranged from 9- to 84-fold, depending upon the time point and virus. The major difference between the wild-type and both mutant viruses was the lower rate and lower level of mutant virus replication in these thymic subpopulations. Significant differences in replication between wild-type and both mutant viruses were seen in the CD3(-) CD4(+) CD8(+) and CD3(-) CD4(-) CD8(-) subpopulations, suggesting that these thymic cell types are important targets for viral transformation. (+info)