Abstract
Parasites of the genus Plasmodium, the etiological agent of malaria, are transmitted through the bite of anopheline mosquitoes, which deposit sporozoites into the host skin. Sporozoites migrate through the dermis, enter the bloodstream, and rapidly traffic to the liver. They cross the liver sinusoidal barrier and traverse several hepatocytes before switching to productive invasion of a final one for replication inside a parasitophorous vacuole. Cell traversal and productive invasion are functionally independent processes that require proteins secreted from specialized secretory organelles known as micronemes. In this review, we summarize the current understanding of how sporozoites traverse through cells and productively invade hepatocytes, and discuss the role of environmental sensing in switching from a migratory to an invasive state. We propose that timely controlled secretion of distinct microneme subsets could play a key role in successful migration and infection of hepatocytes. A better understanding of these essential biological features of the Plasmodium sporozoite may contribute to the development of new strategies to fight against the very first and asymptomatic stage of malaria.
Highlights
Malaria is caused by Plasmodium spp., a protozoan of the phylum of Apicomplexa that is transmitted to mammalian hosts by female Anopheles mosquitoes
Mutant sporozoites lacking either Sporozoite Protein Essential for Cell Traversal (SPECT)-1, perforin-like protein (PLP)-1 or Cell Traversal protein for Ookinetes and Sporozoites (CelTOS) fail to traverse through cells and show defects in parasite migration both in the skin and the liver, but still retain a normal capacity to productively invade hepatocytes in vitro (Ishino et al, 2005a; Ishino et al, 2004; Kariu et al, 2006; Risco-Castillo et al, 2015; Steel et al, 2018; Yang, O’Neill, et al, 2017), indicating that the main physiological role of cell traversal (CT) is to cross cellular barriers and that the CT machinery is not required for subsequent productive invasion
The Plasmodium sporozoite stage has been a leading target for the development of malaria prophylactic strategies
Summary
Malaria is caused by Plasmodium spp., a protozoan of the phylum of Apicomplexa that is transmitted to mammalian hosts by female Anopheles mosquitoes. P. yoelii sporozoites productively invade host cells after a 30–60 min delay in vitro, coinciding with the end of CT activity (Risco-Castillo et al, 2015), which suggests that CT and productive invasion are temporally controlled events in this species.
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