Microtubule inner proteins ofPlasmodiumare essential for transmission of malaria parasites

Abstract

AbstractMicrotubule inner proteins, MIPs, are microtubule associated proteins that bind to tubulin from the luminal side. MIPs can be found in axonemes to stabilize flagellar beat or within cytoplasmic microtubules.Plasmodiumspp. are the causative agents of malaria that feature different forms across a complex life cycle with both unique and divergent microtubule-based arrays. Here we investigate the role of four MIPs in a rodent malaria parasite for their role in transmission to and from the mosquito. We show by single and double gene deletions that SPM1 and TrxL1, MIPs associated with the subpellicular microtubules are dispensable for transmission from the vertebrate host to the mosquito and back. In contrast, FAP20 and FAP52, MIPs associated with the axonemes of gametes, are essential for transmission to mosquitoes but only if both genes are deleted. In the absence of both, FAP20 and FAP52 the B-tubule of the axoneme partly detaches from the A-tubule resulting in the deficiency of axonemal beating and hence gamete formation and egress. Our data suggest that a high level of redundancy ensures microtubule stability in the transmissive stages ofPlasmodium, which is important for parasite transmission.