Plasmodium falciparum (Pf) proteins exported to infected erythrocytes are key effectors of malaria pathogenesis. These include the PfEMP1 (Pf erythrocyte membrane protein 1) protein family that affects malaria-related mortality through… Click to show full abstract
Plasmodium falciparum (Pf) proteins exported to infected erythrocytes are key effectors of malaria pathogenesis. These include the PfEMP1 (Pf erythrocyte membrane protein 1) protein family that affects malaria-related mortality through cytoadhesion and parasite immune evasion. Parasites also induce membranous structures called Maurer's clefts (MC) in infected erythrocytes to compensate the lack of host protein synthetic and export machinery. PfEMP1 export is mediated by a myriad of proteins including Pf skeleton binding protein 1 (PfSBP1) and PF70, a hypothetical 16 family member. Here, we aim to understand the function of the only other exported PEXEL-positive hyp16 member 'PfJ23'. Our in vitro and in silico data suggest this protein to be mostly α-helical while displaying different oligomeric forms under reducing and non-reducing conditions. We show coherent expression, partial co-localization and direct interaction of purified PfSBP1 with recombinant and native PfJ23. Recombinant and parasite-expressed PfJ23 also bind to the cytoplasmic tail of PfEMP1, and they seem to partly co-localize during parasite development. Both novel binding partners interact simultaneously with PfJ23 in vitro to form a complex. Our results suggest a probable role for PfJ23 in export of PEXEL-negative proteins like PfSBP1 and PfEMP1, furthering our understanding of malaria biology.
               
Click one of the above tabs to view related content.