Protection of rats against malaria by a transplanted immune spleen.

A number of reports have suggested that the spleen plays a key role in the regulation of immunity to malaria but the role, if any, of other tissues is less clear. Furthermore, numerous functional changes occur in the spleen following malaria infection and it is not known whether the spleen's role relates primarily to its content of malaria-specific lymphocytes or to the altered structure and function that has occurred. To address these issues we have generated splenic chimeras by transplanting spleens between Plasmodium berghei-immune and naive rats. In the absence of a functional spleen, specific immune responses from both isolated splenic and non-splenic cells can partially control infection. However, an immune spleen in a naive rat can solidly protect the animal from malaria and a normal spleen in an otherwise immune rat can provide enhanced protection over the non-splenic state. Thus, in the presence of functional splenic architecture both splenic and non-splenic malaria-specific lymphocytes operate more effectively. However, these studies do demonstrate an important role for non-splenic tissue in immunity at least for P. berghei in the rat. The study could have important implications for induction of protective immune responses by vaccination and suggests that malaria-specific lymphocyte responses induced in the periphery following vaccination could interact with parasites in both spleen-dependent and spleen-independent ways.