Accumulation of infectious Plasmodium sporozoites in Anopheles spp. salivary glands marks the final step of the complex development of the malaria parasite in the insect vector. Sporozoites are formed inside midgutassociated oocysts and actively egress into the mosquito hemocoel. Traversal of the salivary gland acinar cells correlates with the sporozoite's capacity to perform continuous gliding motility. Here, we characterized the cellular role of the Plasmodium berghei sporozoite invasion-associated protein 1 (SIAP-1). Intriguingly, SIAP-1 orthologs are found exclusively in apicomplexan hemoprotozoa, parasites that are transmitted by arthropod vectors, e.g., Plasmodium, Babesia, and Theileria species. By fluorescent tagging with mCherry, we show that SIAP-1 is expressed in oocyst-derived and salivary gland-associated sporozoites, where it accumulates at the apical tip. Targeted disruption of SIAP-1 does not affect sporozoite formation but causes a partial defect in sporozoite egress from oocysts and abolishes sporozoite colonization of mosquito salivary glands. Parasites with the siap-1(؊) mutation are blocked in their capacity to perform continuous gliding motility. We propose that arthropod-transmitted apicomplexan parasites specifically express secretory factors, such as SIAP-1, that mediate efficient oocyst exit and migration to the salivary glands.Protozoan parasites of the phylum Apicomplexa have adopted an obligate intracellular life-style in a wide range of animal hosts. Apicomplexan parasites share many characteristics, including a set of apical specialized secretory organelles, active substrate-dependent locomotion, and compartmentalization of biosynthetic pathways in apicoplasts. Transmission to the vertebrate hosts occurs via tailor-made motile parasite stages, termed sporozoites, which are formed inside oocysts, the only extracellular replication phase during the complex apicomplexan life cycles. However, apicomplexan parasites differ fundamentally in their transmission modes. Coccidian parasites, such as Toxoplasma gondii, the causative agent of toxoplasmosis, and cryptosporidia, which can cause life-threatening diarrhea, form oocysts that are taken up orally via contaminated food or water, respectively. After accidental ingestion, sporozoites are liberated from the oocysts and breach or directly invade the intestinal endothelium to commence an infection. In marked contrast, sporozoites of apicomplexan hemoprotozoa are inoculated intradermally by arthropod vectors, e.g., Anopheles mosquitoes or ticks. Sporozoites then actively leave the inoculation site and enter the blood circulation (3). In the case of Plasmodium species, the causative agents of malaria, sporozoites are formed in midgut-associated oocysts (16), actively exit the oocyst (1, 23), and penetrate the distal portion of the lateral salivary gland lobes where they eventually accumulate, rendering the infected mosquito infectious to the vertebrate host (4).Colonization of the salivary glands by Plasmodium parasites is driven by a number ...
