Schistosome egg granulomas and hepatic expression of TNF-alpha are dependent on immune priming during parasite maturation.

Granulomatous inflammation is key to the pathogenesis of many infectious diseases, including hepatic schistosomiasis. The granulomas that form around schistosome eggs trapped in the liver of infected hosts were thought to be induced primarily, if not exclusively, by egg Ags. We now show that the maturation of adult worms, before the production of eggs, primes local immune responses key to granuloma formation. When parasite eggs are injected into the livers of naive animals, only a minimal, nongranulomatous, inflammatory response results. However, if eggs are injected into the livers of mice previously infected with single-sex adult worms, granuloma formation is restored. Granuloma formation is also restored if mice are presensitized with adult worm homogenates or with eggs themselves before egg injection into the liver. These sensitization studies confirm that an Ag or Ags are shared between different stages of the schistosome life cycle and that immune priming by these Ag(s) is necessary for hepatic granuloma formation. Models of infection that isolate the effects of worms from those of eggs confirm that each of these life cycle stages induces a unique pattern of cytokine expression. Hepatic expression of TNF-alpha, a major cytokine signal for granuloma formation, is a reaction to adult worms, not eggs. TNF-alpha may mediate immune priming necessary for granuloma development since injection of purified TNF-alpha alone restores formation of granulomas in the livers of naive mice injected with eggs.

Transfected Leishmania expressing biologically active IFN-gamma.

Infection of susceptible BALB/c mice with Leishmania major leads to progressive infection with the failure to expand and activate Th1 CD4+ T cells that elaborate IFN-gamma, a critically implicated cytokine for control of disease. We used the recently described capacity to express foreign genes in trypanosomatids to introduce into Leishmania the murine IFN-gamma gene on a drug-selectable plasmid under the constitutive control of intergenic tubulin sequences. Several clones of L. major were established and demonstrated to contain IFN-gamma DNA and IFN-gamma RNA that was appropriately trans-spliced with the Leishmania-specific leader sequence, and to secrete IFN-gamma into the media. The secreted IFN-gamma was biologically active as assessed by up-regulation of class II MHC Ag and induction of macrophage nitric oxide synthase activity in a macrophage cell line. Infection of nude mice with IFN-gamma-containing organisms resulted in significantly slower progression of disease as compared to infection with organisms containing the empty plasmid, suggesting that biologically important activation of infected macrophages might be occurring in vivo. Infection of genetically susceptible BALB/c mice, however, did not impede the expansion of Th2 cells and the inexorable progression of disease. Despite the demonstration of increased levels of IFN-gamma transcription in vivo, induction of nitric oxide synthase in macrophages and expression of Ly-6, and IFN-gamma-inducible Ag, on CD4+ lymphocytes could not be shown. In all cases, organisms recovered from tissue amastigotes contained the IFN-gamma plasmid and secreted active IFN-gamma. The data confirm earlier studies that IFN-gamma alone is not sufficient to impede activation and maturation of Th2 cells in susceptible mice, even when targeted directly to the infected cell.