A novel glideosome-associated protein S14 coordinates sporozoite gliding motility and infectivity in mosquito and mammalian hosts
Abstract
Plasmodiumsporozoites are the infective forms of the malaria parasite in the vertebrate host. Gliding motility allows sporozoites to migrate and invade the salivary gland and hepatocytes. Invasion is powered by an actin-myosin motor complex linked to glideosome. However, the gliding complex and the role of several glideosome-associated proteins (GAPs) are poorly understood. In silico analysis of a novel protein, S14, which is uniquely upregulated in salivary gland sporozoites, suggested its association with glideosome-associated proteins. We confirmedS14expression in sporozoites using real-time PCR. Further, theS14gene was endogenously tagged with 3XHA-mCherry to study expression and localization. We found its expression and localization on the inner membrane of sporozoites. By targeted gene deletion, we demonstrate that S14 is essential for sporozoite gliding motility, salivary gland, and hepatocyte invasion. The gliding and invasion-deficientS14KO sporozoites showed normal expression and organization of IMC and surface proteins. Using in silico and the yeast two-hybrid system, we showed the interaction of S14 with the glideosome-associated proteins GAP45 and MTIP. Together, our data show that S14 is a glideosome-associated protein and plays an essential role in sporozoite gliding motility, which is critical for the invasion of the salivary gland, hepatocyte, and malaria transmission.
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