The Actin Filament-Binding Protein Coronin Regulates Motility in Plasmodium Sporozoites |
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| Authors: | Kartik S. Bane Simone Lepper Jessica Kehrer Julia M. Sattler Mirko Singer Miriam Reinig Dennis Klug Kirsten Heiss Jake Baum Ann-Kristin Mueller Friedrich Frischknecht |
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| Affiliation: | 1Integrative Parasitology, Center for Infectious Diseases, University of Heidelberg Medical School, Heidelberg, Germany;2Parasitology, Center for Infectious Diseases, University of Heidelberg Medical School, Heidelberg, Germany;3Malva GmbH, Heidelberg, Germany;4Department of Life Sciences, Imperial College London, London, United Kingdom;University of Nottingham, UK, UNITED KINGDOM |
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| Abstract: | Parasites causing malaria need to migrate in order to penetrate tissue barriers and enter host cells. Here we show that the actin filament-binding protein coronin regulates gliding motility in Plasmodium berghei sporozoites, the highly motile forms of a rodent malaria-causing parasite transmitted by mosquitoes. Parasites lacking coronin show motility defects that impair colonization of the mosquito salivary glands but not migration in the skin, yet result in decreased transmission efficiency. In non-motile sporozoites low calcium concentrations mediate actin-independent coronin localization to the periphery. Engagement of extracellular ligands triggers an intracellular calcium release followed by the actin-dependent relocalization of coronin to the rear and initiation of motility. Mutational analysis and imaging suggest that coronin organizes actin filaments for productive motility. Using coronin-mCherry as a marker for the presence of actin filaments we found that protein kinase A contributes to actin filament disassembly. We finally speculate that calcium and cAMP-mediated signaling regulate a switch from rapid parasite motility to host cell invasion by differentially influencing actin dynamics. |
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