In silico analysis for structure, function and T-cell epitopes of a hypothetical conserved (HP-C) protein coded by PVX_092425 in Plasmodium vivax.

OBJECTIVE: Plasmodium spp. merozoite glycosylphosphatidylinositol-anchored proteins (GPI-APs) considered as protective immunogen in novel vaccines against malaria. To analyze the structure and function of a hypothetical conserved (HP-C) GPI-AP coded by gene PVX_092425 from Plasmodium vivax, and find its potential T-cell epitopes for further vivax malaria vaccine study.

METHODS: The structure, function and T-cell epitopes of the HP-C protein named Pvx_092425 were analyzed and predicted by online and offline bioinformatics software.

RESULTS: The bioinformatics data showed that the Pvx_092425 is an 830 amino acid (AA) long polypeptide encoded by five exons gene PVX_092425.It contains a pectin lyase-like superfamily, an AA repeats region, a cys-rich region and a transmembrane domain (TM) in C-terminal region. The alignment analysis drew it has a unique AA repeats region among Plasmodium spp. It was located in the cytoplasm, secretory system or cellular nucleus of P. vivax merozoite. For the sequence, the fragment of I823-V829 inserts in the interior side of the membrane, and M1--A812 belongs to the cytoplasmic tail. It has seven protein-protein binding sites. The peptides with the best predicted binding affinities were human leucocyte antigen (HLA) HLA-A*0203, HLA-DRB1*0101 and HLA- DRB1*0701.Among these predicted peptides, 582FLWDKALFD590 epitope interacted with HLA-DRB1*0101 allele showed best binding affinity compared to others. Structural analysis explained that the epitope fits well into the epitope-binding groove of HLA-DRB1*0101.

CONCLUSIONS: It proposes that the Pvx_092425 plays a key role during erythrocyte stage and generates information that is useful for development of blood-stage vaccine to block the merozoites invasion.