Immunity to Acanthamoeba.

Human serum contains antibodies, mainly of the IgM and IgG isotypes, to pathogenic species of Acanthamoeba. This, as well as the capacity of these amebas to activate complement via the alternative pathway, may be a first-line defense against acanthamoeba infections in humans. Both antibody and complement appear to be important in promoting recognition of these amebas by phagocytic cells such as neutrophils. However, killing of amebas by neutrophils is dependent on lymphokine/monokine priming of the neutrophil. This priming augments the respiratory-burst activity and release of lysosomal enzymes of neutrophils in their response to the ameba. The products of the oxygen-dependent respiratory burst appear to be of prime importance in the killing of this free-living ameba. Antibodies also may prevent tissue invasion by Acanthamoeba by inhibiting its adherence, phagocytic activity, and migration and by neutralizing cytopathogenic amebic agents. Studies on experimental Acanthamoeba infections in mice showed marked species and strain specificity with regard to induction of protection with amebic antigens. Immune compromise or, alternatively, invasion at unique body sites in healthy individuals may form the basis for human infection with Acanthamoeba.