The Subcellular Location of Ovalbumin in Plasmodium berghei Blood Stages Influences the Magnitude of T-Cell Responses
ABSTRACTModel antigens are frequently introduced into pathogens to study determinants that influence T-cell responses to infections. To address whether an antigen's subcellular location influences the nature and magnitude of antigen-specific T-cell responses, we generatedPlasmodium bergheiparasites expressing the model antigen ovalbumin (OVA) either in the parasite cytoplasm or on the parasitophorous vacuole membrane (PVM). For cytosolic expression, OVA alone or conjugated to mCherry was expressed from a strong constitutive promoter (OVAhsp70orOVA::mCherryhsp70); for PVM expression, OVA was fused to HEP17/EXP1 (OVA::Hep17hep17). Unexpectedly, OVA expression inOVAhsp70parasites was very low, but when OVA was fused to mCherry (OVA::mCherryhsp70), it was highly expressed. OVA expression inOVA::Hep17hep17parasites was strong but significantly less than that inOVA::mCherryhsp70parasites. These transgenic parasites were used to examine the effects of antigen subcellular location and expression level on the development of T-cell responses during blood-stage infections. While all OVA-expressing parasites induced activation and proliferation of OVA-specific CD8+T cells (OT-I) and CD4+T cells (OT-II), the level of activation varied:OVA::Hep17hep17parasites induced significantly stronger splenic and intracerebral OT-I and OT-II responses than those ofOVA::mCherryhsp70parasites, butOVA::mCherryhsp70parasites promoted stronger OT-I and OT-II responses than those ofOVAhsp70parasites. Despite lower OVA expression levels,OVA::Hep17hep17parasites induced stronger T-cell responses than those ofOVA::mCherryhsp70parasites. These results indicate that unconjugated cytosolic OVA is not stably expressed inPlasmodiumparasites and, importantly, that its cellular location and expression level influence both the induction and magnitude of parasite-specific T-cell responses. These parasites represent useful tools for studying the development and function of antigen-specific T-cell responses during malaria infection.