The ability of p53 to activate downstream genes p21(WAF1/cip1) and MDM2, and cell cycle arrest following DNA damage is delayed and attenuated in scid cells deficient in the DNA-dependent protein kinase.
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scid mouse embryonic fibroblasts are deficient in DNA-dependent protein kinase activity due to a mutation in the C-terminal domain of the catalytic subunit (DNA-PKcs). When exposed to ionizing radiation, the increase in levels of p53 was the same as in normal mouse embryonic fibroblasts. However, the rise in p21(WAF1/cip1) and mdm2 was found to be delayed and attenuated, which correlated in time with delayed onset of G1/S arrest by flow cytometric analysis. The p53-dependent G1 checkpoint was not eliminated: inactivation of p53 by the E6 protein in scid cells resulted in the complete loss of detectable G1/S arrest after DNA damage. Immunofluorescence analysis of normal cells revealed p53 to be localized predominantly within the cytoplasm prior to irradiation and then translocate to the nucleus after irradiation. In contrast, scid cells show abnormal accumulation of p53 in the nucleus independent of irradiation, which was confirmed by immunoblot analysis of nuclear lysates. Taken together, these data suggest that loss of DNA-PK activity appears to attenuate the kinetics of p53 to activate downstream genes, implying that DNA-PK plays a role in post-translational modification of p53, without affecting the increase in levels of p53 in response to DNA damage. (+info)
Egg laying is delayed but worm fecundity is normal in SCID mice infected with Schistosoma japonicum and S. mansoni with or without recombinant tumor necrosis factor alpha treatment.
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Mice with severe combined immunodeficiency (SCID mice) lack functional B and T cells. Egg laying by Schistosoma mansoni and S. japonicum was delayed in SCID mice, but in a matter of weeks worm fecundity was equivalent to that in intact mice. SCID mice formed smaller hepatic granulomas and showed less fibrosis than did intact mice. The reduction in egg-associated pathology in SCID mice correlated with marked reductions in interleukin-4 (IL-4), IL-5, IL-13, and gamma interferon mRNA expression in the liver. S. mansoni infections were frequently lethal for SCID mice infected for more than 9 weeks, while S. japonicum-infected SCID mice died at the same rate as infected intact mice. We were unable to affect hepatic granuloma formation or egg laying by worms in SCID mice by administration of recombinant murine tumor necrosis factor alpha (TNF-alpha). In fact, SCID and BALB/c mice appeared to express nearly equivalent levels of TNF-alpha mRNA in their granulomatous tissues, suggesting that there is little or no deficit in TNF-alpha expression in infected SCID mice. The data indicate that TNF-alpha may be in large part derived from a non-T-cell source. Together, these findings provide little evidence that TNF-alpha alone can reconstitute early fecundity, granuloma formation, or hepatic fibrosis in schistosome-infected SCID mice. (+info)
IL-18 is a potent coinducer of IL-13 in NK and T cells: a new potential role for IL-18 in modulating the immune response.
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IL-13 and IL-4 have similar biological activities and are characteristic of cytokines expressed by Th2 cells. In contrast, IL-12 and IL-18 have been shown to be strong cofactors for Th1 cell development. In this study, we found strong induction of IL-13 mRNA and protein by IL-2 + IL-18 in NK and T cells. In contrast, IL-12 did not enhance the IL-13 production induced by IL-2 alone. Moreover, IL-13 mRNA and protein expression induced by IL-2 + IL-18 in purified NK and T cells obtained from IFN-gamma knockout (-/-) mice were greater than seen in purified cells from normal controls. In contrast, IL-10 production induced by IL-2 and/or IL-12 was not significantly different in IFN-gamma (-/-) mice and normal controls. These results suggest IL-13 expression induced by IL-2 + IL-18 may be regulated by IFN-gamma in vivo, while IL-10 expression may be IFN-gamma-independent. Thus, depending upon the cell type, IL-18 may act as a strong coinducer of Th1 or Th2 cytokines. Our findings suggest that IL-12 and IL-18 have different roles in the regulation of gene expression in NK and T cells. (+info)
Critical role of leukocyte function-associated antigen-1 in liver accumulation of CD4+NKT cells.
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In contrast to peripheral lymphoid organs, a high percentage of T cells in the liver are CD4+NKT cells. We asked whether adhesion molecules play any role in the accumulation of CD4+NKT cells in the liver. Liver CD4+NKT cells expressed ICAM-1 and high levels of LFA-1. In the livers of LFA-1-deficient mice, the number of CD4+NKT cells was markedly decreased. This reduction was restricted to the liver, and no reduction was found in the other organs analyzed. In contrast, the number of liver CD4+NKT cells in ICAM-1-deficient mice was only marginally reduced. In a reciprocal radiation thymocyte reconstitution system with LFA-1-deficient and wild-type mice, LFA-1 expressed on liver cells other than CD4+NKT cells was required for an accumulation of CD4+NKT cells in the liver. These results demonstrate a crucial role for LFA-1 in the accumulation of CD4+NKT cells in the liver. (+info)
Synergism for cytokine-mediated disease during concurrent endotoxin and viral challenges: roles for NK and T cell IFN-gamma production.
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Viral infections in humans or mice can result in increased sensitivity to challenges with bacteria, bacterial products, or cytokine administration. During lymphocytic choriomeningitis virus infections, mice are more sensitive to the lethal effects of bacterial endotoxin LPS, and in the experiments reported here, were observed at up to 10-fold lower doses in infected than in uninfected mice. The mechanisms responsible for heightened susceptibility under these conditions were evaluated. Kinetic studies demonstrated that virus-infected mice had 3- to 50-fold increases over uninfected mice in peak serum TNF, IL-12, and IFN-gamma levels after LPS administration. All three cytokines contributed to lethality during dual challenge, because neutralization of any one of the factors protected from death. Production of TNF was not dependent on either NK or T cells. In contrast, these populations were the predominant sources of IFN-gamma, as determined by lack of detectable IFN-gamma production in NK and T cell-deficient mice and by intracellular cytokine expression in the cell subsets. Concordant with the demonstrations that both cell populations produced IFN-gamma and that this factor was critical for lethality, removal of either subset alone was not sufficient to protect mice from death resulting from dual challenges. Increased resistance required absence of both cell subsets. Taken together, the data show that during viral infections, the normally protective immune responses can profoundly modify reactions to secondary heterologous challenges, to result in dysregulated cytokine expression and consequent heightened detrimental effects. (+info)
Suppression of antigen-specific Th2 cell-dependent IgM and IgG1 production following norepinephrine depletion in vivo.
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The mechanism by which the Th2 cell-dependent Ab response is modulated by the sympathetic neurotransmitter norepinephrine (NE) was investigated. Our model system used the severe combined immunodeficient (scid) mouse that was depleted of NE with 6-hydroxydopamine before reconstitution with a clone of beta2-adrenergic receptor (beta2AR)neg KLH-specific Th2 cells and resting trinitrophenyl (TNP)-specific beta2ARpos B cells enriched from the spleens of unimmunized mice. Following challenge with TNP-keyhole limpet hemocyanin (KLH), Ab production in these mice was hapten-, carrier-, and allotype-specific as well as MHC restricted. Depletion of NE resulted in a 50-75% suppression of the primary anti-TNP IgM response compared with that of NE-intact controls, while the secondary IgM response returned to control levels. In contrast, both the primary and secondary anti-TNP IgG1 responses were suppressed by 85 and 40%, respectively. Using NE-intact mice exposed to either a betaAR- or alphaAR-selective antagonist, the effect of NE on the Ab response was shown to be mediated by the betaAR. In addition, administration of a beta2AR-selective agonist to NE-depleted mice partially reversed the suppressed Ab response that resulted from NE depletion. Expression of the beta2AR on TNP-specific B cells was confirmed by radioligand binding, immunofluorescence, and cAMP analysis. Also, while splenic histology was comparable in NE-intact and NE-depleted mice before Ag exposure, follicle expansion and germinal center formation were suppressed in NE-depleted mice after Ag exposure. Taken together, these results suggest that NE stimulation of the beta2AR expressed on B cells is necessary for the maintenance of an optimal primary and secondary Th2 cell-dependent Ab response in vivo. (+info)
Neutralizing antibodies have limited effects on the control of established HIV-1 infection in vivo.
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Neutralizing antibodies can protect against challenge with HIV-1 in vivo if present at appropriate concentrations at the time of viral challenge, but any role in the control of established infection is unclear. Here, we show that high serum concentrations of neutralizing monoclonal antibodies, either singly or as a cocktail, have little sustained effect on viral load in established HIV-1 infection in hu-PBL-SCID mice. In some instances, virus replication of neutralization-sensitive virus continues even in the presence of high levels of neutralizing antibody. In most instances, neutralization escape occurs in a few days, even from a cocktail of three antibodies that recognize distinct epitopes. The results imply that humoral immunity is unlikely to play a significant role in the control of established HIV-1 infection in humans. (+info)
Syndecan-4 is expressed by B lineage lymphocytes and can transmit a signal for formation of dendritic processes.
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Our previous studies indicated that stromal cell-derived syndecan-4 might mediate some form of communication with pre-B cells in bone marrow. We now report additional aspects of this recognition and show that syndecan-4 is also present on pre-B cells. Indeed, the molecule is acquired at an early stage of differentiation and retained until mature B cells undergo Ig isotype switching. mAbs developed to two portions of the syndecan-4 protein core were used to probe possible functions on B lineage lymphocytes. Syndecan-4 ligation had no obvious influence on B lymphocyte formation or activation, but this treatment caused a dramatic morphological change in appropriately stimulated leukocytes. Extended filopodia appeared on transfected Ba/F3 or FDCP-1 cells, as well as activated B cell blasts that were placed on syndecan-4 Ab-coated surfaces. The dendritic processes contained polymerized actin as well as pp52(LSP1), a prominent F-actin binding protein in lymphocytes. The cytoplasmic domain of syndecan-4 was not required for this response. Shape changes of this type could facilitate interactions between B lymphocytes and other components of the immune system. Not only is syndecan-4 a useful marker for discriminating normal B lineage lymphocyte subsets, but our results suggest new ways for the syndecans to participate in immune responses. (+info)