Murine schistosomiasis mansoni: coordinate cytokine regulation and differences in cellular immune responses of granuloma cells and splenocytes to endogenous and exogenous schistosome egg antigens.

To better understand the cellular immune mechanisms that regulate granulomatous inflammation to Schistosoma mansoni ova, we examined the dynamics of lymphocyte proliferation and cytokine expression by granuloma cells and splenocytes to endogenous and exogenous schistosome egg antigen (SEA) 6-19 weeks postinfection. Compared to splenocytes, granuloma cells (partially CD4+ cells) which are at the site of antigen release were highly activated by endogenous SEA and terminally differentiated as indicated by the more than 10-fold greater frequency of ex vivo interleukin (IL)-4, IL-5 and interferon (IFN)-gamma -secreting cells, greater levels of constitutive cytokine production and failure to proliferate to either endogenous or exogenous SEA. Endogenous cytokine production by granuloma cells was coordinately regulated, enhanced little by exogenous SEA, and temporally correlated with granulomatous inflammation. By contrast, CD4+ splenocytes produced comparatively little cytokine release by endogenous antigen, whereas exogenous SEA strongly induced IL-4, IL-5, IL-10 and IFN-gamma production and lymphocyte proliferation that correlated poorly with the dynamics of granulomatous inflammation. These results show that cytokine responses to endogenous SEA correlated better with granulomatous inflammation than responses to exogenous SEA. Furthermore, granuloma cells and splenocytes demonstrated strikingly different proliferative responses and dynamics of cytokine expression, suggesting that how SEA reactive lymphocytes traffic between lymphoid tissues and the granuloma is critical to a better understanding of the mechanisms of granulomatous inflammation and its modulation.

Mice with a targeted deletion of the IgE gene have increased worm burdens and reduced granulomatous inflammation following primary infection with Schistosoma mansoni.

Although IgE has been considered to play an essential role in host defense against parasitic helminth infections such as Schistosoma mansoni, in vivo evidence of a protective function of IgE in infected mice is lacking. In the present study, mice with a null mutation of the C epsilon gene, and thus incapable of making IgE (IgE deficient), were infected by S. mansoni cercariae percutaneously. In two independent experiments, IgE-deficient mice were significantly more susceptible to primary infection, developing worm burdens twofold greater than those of wild-type mice (p < 0.001). In contrast, resistance to challenge infection following three immunizations with irradiated cercariae was similar in the two groups. The percentage of reduction in worm burdens in immunized IgE-deficient animals compared with unimmunized mice was 50%; immunized wild-type mice had a reduction of 55% compared with the baseline parasite count. Levels of parasite-specific IgG1 were more than twofold lower in IgE-deficient mice after primary infection (p = 0.005), whereas no significant difference was observed in the IgG1 response of animals previously immunized with irradiated cercariae. IgE-deficient animals also developed significantly smaller granulomas (by 37-40%) around schistosome eggs deposited in their livers compared with wild-type animals (p < 0.001). The spleens of IgE-deficient mice contained significantly more Ag-specific IL-4-secreting cells following primary infection. These data show that IgE participates in parasite elimination in primary infection with S. mansoni and in the generation of humoral immunity and cytokine responses to the parasite.

CD28-deficient mice generate an impaired Th2 response to Schistosoma mansoni infection.

Engagement of CD28 on T cells provides a co-stimulatory signal necessary for T cell activation and differentiation. Recent findings suggest that priming of T helper (Th)2 cells is more dependent on CD28 activation that Th1 cells. The present study examines whether mice that lack expression of CD28 as a result of gene targeting are capable of generating a Th2 response characteristic during infection with the intravascular trematode parasite Schistosoma mansoni. Mutant and control mice were either inoculated in the footpad with S. mansoni eggs (a potent inducer of a Th2 response) or infected percutaneously with the parasite. Draining lymph nodes (after footpad injection) or spleen cells (after natural infection) were harvested at 12 days and 8 weeks, respectively, and examined for cytokine responses to egg antigens. CD28-deficient mice (-/-) generated diminished egg antigen-driven interleukin (IL)-4 and IL-5 production (by 5- to 17-fold, respectively) compared to CD28-expressing (+/+) littermates. In contrast, lymphocyte proliferation and interferon (IFN)-gamma production to egg antigens were equivalent for mutant and control mice. Infected CD28-/- mice also had reduced immunoglobulin secretion. Serum levels of parasite antigen-specific IgG1 and polyclonal IgE were significantly diminished in CD28-/- compared to CD28+/+ mice. Lack of CD28 expression had no effect on granuloma formation around eggs trapped in the liver, but increased susceptibility of mice to primary schistosomiasis infection. These studies indicate that CD28 activation contributes to T cell priming required for generation of a Th2 response to an intravascular dwelling helminth parasite.