Plasmodium actin-like proteins 3 and 5a are essential for subsequent steps of mosquito infection

Actin superfamily members are critical for the biology of eukaryotes and archaea. Actin-related proteins (Arps) are a subgroup within the actin superfamily and play essential roles in trafficking, replication and motility. The genome of the malaria parasite Plasmodium contains a set of Arps unique to apicomplexans, termed actin-like proteins (Alps). However, the importance and specific roles of many of these Alps in Plasmodium progression are not yet understood. Here, we determined the functional contribution of Plasmodium berghei Alp3 and Alp5a (recently relabelled as Arp3) by generation of knock-out (KO) lines and their subsequent characterisation across different life cycle stages. Deletion of either Alp did not affect blood stage growth, gametogenesis and ookinete gliding motility. However, deletion of Alp5a lead to smaller and fewer oocysts as well as severely impaired sporozoite formation. The Alp3KO line had highly reduced oocyst loads compared to wild-type parasites. This striking decrease was due to impaired ookinete penetration of the mosquito midgut epithelium. Our study shows that both Alp3 and Alp5a are indispensable for Plasmodium transmission at different steps of initial mosquito infection, provides insights into the role of specific unique members of the actin superfamily during parasite progression and the requirements for efficient midgut penetration.