The immunologic significance of variation within malaria circumsporozoite protein sequences.

We have previously suggested that variation within the circumsporozoite protein of the malaria parasite Plasmodium falciparum was the result of selection by immune T cells. Our hypothesis has been supported by experiments documenting a lack of cross-reactivity between variant peptides from the C-terminal region for murine T cells primed by 7G8-specific sequences. Now, by using a murine model we have found that peptides representing variant regions (amino acid residues 326-343 and 361-380) of two other parasite clones (Wel and LE5) are also immunodominant for murine T cells. However, there were distinct changes in response profiles. For example, whereas lymph node cells from H-2d and H mice immunized with peptides from the 326-343 region of all three variants proliferated in vitro after homologous challenge, only lymph node cells from H-2b mice immunized with LE5 peptide proliferate after homologous challenge. In contrast, only LE5 did not induce lymphoproliferation against homologous challenge in the H-2s background. These data suggest that the naturally occurring substitutions affect agretopic (i.e., Ia). Peptides from all variants representing the 361-380 domain were recognized only by T cells from H-2k mice. Also, in nearly all cases, T cells primed by one sequence did not recognize variant sequences. The immunodominance of these domains from three different clones and the lack of significant cross-reactivity further supports the hypothesis that variation is the result of T cell immune pressure.