Erythrocyte membrane protein 3 (EMAP3) is exposed on the surface of the Plasmodium berghei infected red blood cell
bioRxiv – May 28, 2024
Source: medRxiv/bioRxiv/arXiv
Summary
A newly identified protein, EMAP3, is found on the surface of red blood cells infected by the malaria parasite Plasmodium berghei. While it interacts with other proteins, it’s not essential for the parasite's growth or ability to cling to blood vessel walls. This discovery opens avenues for developing treatments targeting malaria's adherence mechanisms.
Abstract
The human malaria parasite Plasmodium falciparum invades red blood cells (RBC) and exports parasite proteins to transform the host cell for its survival. These exported proteins facilitate uptake of nutrients and cytoadherence of the infected RBC (iRBC) to endothelial cells of small blood vessels, thus protecting the iRBC from splenic clearance. The parasite protein PfEMP1 and the host protein CD36 play a major role in P. falciparum iRBC cytoadherence. The murine parasite Plasmodium berghei is a widely used experimental model that combines high genetic tractability with access to in vivo studies. P. berghei iRBC also sequesters in small blood vessels, mediated by binding to CD36. However, the parasite proteins binding to CD36 are unknown and only very few parasite proteins, including EMAP1 and EMAP2, have been identified that are present at the iRBC membrane. We have identified a new protein named EMAP3 and demonstrated its export to the iRBC membrane where it interacts with EMAP1, with only EMAP3 exposed on the outer surface of the iRBC. Parasites lacking EMAP3 display no significant reduction in growth or sequestration, indicating that EMAP3 is not the major CD36-binding protein. The outer-surface location of EMAP3 offers a new scaffold for displaying P. falciparum proteins on the surface of the P. berghei iRBC, providing a platform to screen in vivo putative inhibitors of P. falciparum cytoadherence.