Models of HIV type 1 proviral gene expression in wild-type HIV and MLV/HIV transgenic mice

Two proviral HIV transgenic mouse models, one bearing wild-type HIV proviral DNA and the other a modified provirus in which the viral LTRs contained the core enhancer of the Moloney murine leukemia virus (MLV), were compared. The MLV/HIV chimeric LTR, in which the MLV enhancer replaced the NF-kappa B-binding motifs, was transcriptionally active in human and murine cells in vitro and virus containing the chimeric LTR was replication competent in human cell cultures. Transgenic mice derived from microinjections of chimeric MLV/HIV proviral DNA transcribed HIV genes at a greater frequency and at higher levels than wild-type HIV proviral transgenic mice. MLV/HIV mice were also more apt to develop disease; wasting, periocular infections, and a degenerative myopathy characterized the most predominant phenotype. The tissue specificities of the wild-type and chimeric LTRs in transgenic mice were remarkably similar, but a significant difference was apparent in lymphoid cells. Basal level and LPS-inducible HIV gene expression occurred in peritoneal and bone marrow-derived macrophages from wild-type HIV transgenic mice. In contrast, HIV gene expression in macrophages from MLV/HIV mice was undetectable, even following LPS induction. However, cultured splenocytes from MLV/HIV mice supported HIV proviral gene transcription better than splenocytes from HIV mice, particularly after induction with LPS or anti-IgD antibody but not with concanavalin A. These data suggest that in transgenic mice, the HIV and MLV/HIV LTRs display a differential tropism for macrophages and B cells, respectively. HIV and MLV/HIV transgenic mice represent alternative models amenable to in vivo studies of HIV gene regulation in lymphoid cells, the induction of HIV-related disease and the evaluation of anti-HIV therapies.

IL-12 inhibits endotoxin-induced inflammation in the eye

Interleukin-12 (IL-12) is a heterodimeric cytokine that induces interferon (IFN)-gamma production and an increased generation of Th1 cells. Both IL-12 and IL-12 antagonists are being studied for the treatment of allergic reactions, autoimmune disease and malignancy. The goal of the present experiments was to examine the importance of IL-12 in endotoxin-induced ocular inflammation. The number of inflammatory cells infiltrating eyes with endotoxin-induced uveitis (EIU) was significantly increased in animals treated with intraperitoneal anti-IL-12 antibody when compared to control animals, but there was no difference in infiltrating inflammatory cells in the eyes of animals treated with IL-12 when compared to controls. In contrast, intraocular injection of IL-12 significantly inhibited the development of endotoxin-induced intraocular inflammation. The infiltrating inflammatory cells were reduced in the eyes of animals receiving intraocular IL-12 when compared to controls. Cytokine analysis of the aqueous humor obtained from eyes with EIU showed increased levels of IFN-gamma and decreased levels of IL-6 in eyes receiving intraocular IL-12. These data show that IL-12 has an inhibitory effect on endotoxin-induced inflammation in the eye and suggest that IL-12 can have an immunoregulatory function in some forms of inflammatory disease.

Contribution of nitric oxide to the host parasite equilibrium in toxoplasmosis

We studied the effect of nitric oxide (NO) production on the evolution of toxoplasmosis in C57BL/6 mice. Infection was induced by i.p. injection of Toxoplasma gondii strain ME49. NO synthesis was inhibited by treatment with aminoguanidine, a structural analogue of L-arginine. The severity of infection was evaluated by histopathologic examination of the brain. In the infected mice treated for 2 wk with aminoguanidine, we observed an increase in the number of toxoplasma tachyzoites and intracellular cysts accompanied by an exacerbated inflammation of the brain tissue compared with that in controls. When spleen cells from infected mice were stimulated in culture with toxoplasma Ag, there was a marked cytotoxic effect on cells collected during the acute stage of infection and an inhibition of proliferation of the remaining viable lymphocytes. These effects were correlated with high levels of NO and PGE2 production. The suppression of NO synthesis prevented cell death and restored the lymphocyte proliferative response as well as lymphokine production. The neutralization of IFN-gamma or TNF-alpha had no effect on NO production in the cultures of infected mouse spleen cells. Cultures in which purified macrophages and lymphocytes from infected and naive mice were mixed indicated that the production of NO was dependent on lymphocyte activation. In the later stages of infection, when the production of NO was abating, preventing PGE2 secretion with indomethacin also increased the lymphocyte proliferative response. We conclude that the opposing effects of NO in toxoplasmosis, which protects against Toxoplasma gondii and at the same time limits the immune response, probably contribute to the establishment of the characteristic chronic state of host parasite equilibrium.

Contribution of nitric oxide to the host parasite equilibrium in toxoplasmosis

We studied the effect of nitric oxide (NO) production on the evolution of toxoplasmosis in C57BL/6 mice. Infection was induced by i.p. injection of Toxoplasma gondii strain ME49. NO synthesis was inhibited by treatment with aminoguanidine, a structural analogue of L-arginine. The severity of infection was evaluated by histopathologic examination of the brain. In the infected mice treated for 2 wk with aminoguanidine, we observed an increase in the number of toxoplasma tachyzoites and intracellular cysts accompanied by an exacerbated inflammation of the brain tissue compared with that in controls. When spleen cells from infected mice were stimulated in culture with toxoplasma Ag, there was a marked cytotoxic effect on cells collected during the acute stage of infection and an inhibition of proliferation of the remaining viable lymphocytes. These effects were correlated with high levels of NO and PGE2 production. The suppression of NO synthesis prevented cell death and restored the lymphocyte proliferative response as well as lymphokine production. The neutralization of IFN-gamma or TNF-alpha had no effect on NO production in the cultures of infected mouse spleen cells. Cultures in which purified macrophages and lymphocytes from infected and naive mice were mixed indicated that the production of NO was dependent on lymphocyte activation. In the later stages of infection, when the production of NO was abating, preventing PGE2 secretion with indomethacin also increased the lymphocyte proliferative response. We conclude that the opposing effects of NO in toxoplasmosis, which protects against Toxoplasma gondii and at the same time limits the immune response, probably contribute to the establishment of the characteristic chronic state of host parasite equilibrium.

Interleukin 12 acts directly on CD4+ T cells to enhance priming for interferon gamma production and diminishes interleukin 4 inhibition of such priming

Naive CD4+ T cells produce interleukin 2 (IL-2) but little IL-4 or interferon gamma (IFN-gamma). In vitro, they develop into IL-4 or IFN-gamma producers depending on the conditions of the priming culture. Using T-cell receptor transgenic CD4+ T cells, the role of IL-12 and IL-4 in antigen-specific priming was examined. IL-12 substantially enhanced the ability of naive CD4+ T cells to develop into cells that produced IFN-gamma upon restimulation. However, it was not essential since anti-IL-12 antibodies failed to block the priming for IFN-gamma observed in the absence of exogenous IL-12. When both IL-12 and IL-4 were present in the priming culture, IL-12 did not inhibit priming for IL-4 production. In contrast, IL-4 diminished but did not abolish priming for IFN-gamma production. In an accessory cell-independent priming system, IL-12 strikingly augmented priming for IFN-gamma production, indicating that it acts directly on T cells. IFN-gamma itself did not enhance priming for IFN-gamma production in either accessory cell-dependent or independent systems. In an accessory cell-dependent system, the IL-12-mediated enhancement was not blocked by adding neutralizing anti-IFN-gamma monoclonal antibody. However, in an accessory cell-independent system, anti-IFN-gamma antibody did inhibit priming for IFN-gamma production leaving open a role for IFN-gamma in the priming process. These data indicate that IL-12 has a major effect on the inductive phase of T-cell priming by enhancing commitment to IFN-gamma production and thus can profoundly influence the state of immunity that develops.

Simultaneous depletion of CD4+ and CD8+ T lymphocytes is required to reactivate chronic infection with Toxoplasma gondii

C57BL/6 mice chronically infected with an avirulent strain (ME-49) of Toxoplasma gondii were used to study the mechanisms by which T lymphocytes and IFN-gamma prevent reactivation of latent infection. Infected animals were treated with mAb, either anti-CD8, anti-CD4, anti-CD4 plus anti-CD8, anti-IFN-gamma, or anti-CD4 plus anti-IFN-gamma and the mice followed for survival, histopathology, cyst numbers, and spleen cell cytokine responses. In agreement with previously published findings, treatment with anti-IFN-gamma antibodies fully reactivated the asymptomatic infection, inducing massive necrotic areas in the brain with the appearance of free tachyzoites and death of all animals within 2 wk. Mice treated with the combination of anti-CD4 plus anti-CD8 antibodies showed augmented pathology and mortality nearly identical to the anti-IFN-gamma- treated animals. In contrast, treatment with anti-CD4 or anti-CD8 mAb alone failed to result in significantly enhanced brain pathology or mortality. In additional experiments, full reactivation of infection was observed in mice treated with anti-CD4 plus anti-IFN-gamma indicating that CD4+ lymphocytes are not required for the pathology resulting from IFN-gamma neutralization. Cytokine measurements on parasite Ag-stimulated spleen cells from mAb-treated mice indicated that both CD4+ and CD8+ cells produce IFN-gamma whereas only CD4+ cells contribute to parasite Ag-induced IL-2 synthesis. Together, these results suggest that CD4+ and CD8+ lymphocytes act additively or synergistically to prevent reactivation of chronic T. gondii infection probably through the production of IFN-gamma.

Simultaneous depletion of CD4+ and CD8+ T lymphocytes is required to reactivate chronic infection with Toxoplasma gondii

C57BL/6 mice chronically infected with an avirulent strain (ME-49) of Toxoplasma gondii were used to study the mechanisms by which T lymphocytes and IFN-gamma prevent reactivation of latent infection. Infected animals were treated with mAb, either anti-CD8, anti-CD4, anti-CD4 plus anti-CD8, anti-IFN-gamma, or anti-CD4 plus anti-IFN-gamma and the mice followed for survival, histopathology, cyst numbers, and spleen cell cytokine responses. In agreement with previously published findings, treatment with anti-IFN-gamma antibodies fully reactivated the asymptomatic infection, inducing massive necrotic areas in the brain with the appearance of free tachyzoites and death of all animals within 2 wk. Mice treated with the combination of anti-CD4 plus anti-CD8 antibodies showed augmented pathology and mortality nearly identical to the anti-IFN-gamma- treated animals. In contrast, treatment with anti-CD4 or anti-CD8 mAb alone failed to result in significantly enhanced brain pathology or mortality. In additional experiments, full reactivation of infection was observed in mice treated with anti-CD4 plus anti-IFN-gamma indicating that CD4+ lymphocytes are not required for the pathology resulting from IFN-gamma neutralization. Cytokine measurements on parasite Ag-stimulated spleen cells from mAb-treated mice indicated that both CD4+ and CD8+ cells produce IFN-gamma whereas only CD4+ cells contribute to parasite Ag-induced IL-2 synthesis. Together, these results suggest that CD4+ and CD8+ lymphocytes act additively or synergistically to prevent reactivation of chronic T. gondii infection probably through the production of IFN-gamma.

Immunization against parasites: bridging the gap between attenuated and non-living vaccines

While great progress has been made in the last decade in defining parasite antigens which are targets of host protective responses, only limited success has been achieved in the use of these molecules as effective vaccines. A consistent problem is the failure of the candidate immunogens to induce levels of protection comparable to those obtained with attenuated vaccines against the same organisms. One explanation is that the purified or recombinant molecules employed have not been presented in a form or route which induces the correct T cell or cytokine response necessary for protection. As summarized in this overview, optimal immunization with attenuated vaccines is associated with characteristic patterns of T cell subset and cytokine induction and in at least several examples has been shown to be altered by exogenous cytokine. We hypothesize that cytokine manipulation may offer a useful strategy for improving the action of existing nonliving vaccines. The gap in efficacy between attenuated and dead vaccines could also be bridged by the use of live recombinant vaccine vectors. We have previously reported that paramyosin admixed with BCG can induce partial protection against Schistosoma mansoni in mice. Our preliminary results in the construction and testing of a recombinant BCG vector incorporating schistosome paramyosin are described.

Anti-laminin and specific antibodies in acute Chagas disease

A striking increase of anti-laminin antibodies contrasting with low levels of anti-Trypanosoma cruzi antibodies was detected by enzyme-linked immunosorbent assay in sera of 16 patients at the acute phase of Chagas disease. The mean absorbancies using an anti-human IgG conjugate were 6563 and 202 for laminin and T. cruzi antigens, respectively; with anti-IgM conjugate the titres were 3442 and 207, respectively. In addition, indirect immunofluorescence tests performed with trypomastigotes from blood or cell cultures have shown extremely high titres (up to 1:10 240), which declined when mouse laminin-absorbed sera were used instead, apparently confirming the presence of laminin in the surface membrane of the parasites. These results support the view that the high anti-laminin titres found in patients with Chagas disease are induced by the newly described galactosyl-alpha 1-3-galactose epitope present in T. cruzi trypomastigotes and shared by mouse laminin.