Plasmodium falciparum: structural and functional domains of the mature-parasite-infected erythrocyte surface antigen.

The mature parasite-infected erythrocyte surface antigen (MESA) is a protein exported to the membrane skeleton of the infected red cell, where it forms a strong noncovalent interaction with the host red cell protein, protein 4.1. The complete gene structure of MESA from the Ugandan isolate Palo Alto is described. Comparison to the previously reported MESA sequence from the Papua New Guinean cloned line D10 reveals strong conservation of the general gene structure of a short first exon and a long second exon. The exact exon/intron boundaries were determined by the generation and sequencing of a cDNA from this region. The MESA gene from both isolates consists of seven blocks of repeats that are identical in order. Repeat blocks are conserved to a high degree; however, differences are noted in most blocks in the form of scattered mutations or differences in repeat numbers. Previous work had shown that synthetic peptides spanning a 19-residue region could inhibit the binding of MESA to protein 4.1. Removal of this region from MESA almost completely abolished the binding of MESA to IOVs. Sequencing of this region from a number of laboratory and field isolates demonstrates complete conservation of the cytoskeletal binding domain and flanking sequences. Copyright 1999 Academic Press.