Cryo-tomography reveals rigid-body motion and organization of apicomplexan invasion machinery

Gui, Long; O’Shaughnessy, William J.; Cai, Kai; Reetz, Evan; Reese, Michael L.; Nicastro, Daniela

Cryo-tomography reveals rigid-body motion and organization of apicomplexan invasion machinery

Long Gui, William J. O’Shaughnessy, Kai Cai, Evan Reetz, Michael L. Reese () and Daniela Nicastro ()
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Long Gui: University of Texas, Southwestern Medical Center
William J. O’Shaughnessy: University of Texas, Southwestern Medical Center
Kai Cai: University of Texas, Southwestern Medical Center
Evan Reetz: University of Texas, Southwestern Medical Center
Michael L. Reese: University of Texas, Southwestern Medical Center
Daniela Nicastro: University of Texas, Southwestern Medical Center

Nature Communications, 2023, vol. 14, issue 1, 1-14

Abstract: Abstract The apical complex is a specialized collection of cytoskeletal and secretory machinery in apicomplexan parasites, which include the pathogens that cause malaria and toxoplasmosis. Its structure and mechanism of motion are poorly understood. We used cryo-FIB-milling and cryo-electron tomography to visualize the 3D-structure of the apical complex in its protruded and retracted states. Averages of conoid-fibers revealed their polarity and unusual nine-protofilament arrangement with associated proteins connecting and likely stabilizing the fibers. Neither the structure of the conoid-fibers nor the architecture of the spiral-shaped conoid complex change during protrusion or retraction. Thus, the conoid moves as a rigid body, and is not spring-like and compressible, as previously suggested. Instead, the apical-polar-rings (APR), previously considered rigid, dilate during conoid protrusion. We identified actin-like filaments connecting the conoid and APR during protrusion, suggesting a role during conoid movements. Furthermore, our data capture the parasites in the act of secretion during conoid protrusion.

Date: 2023
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DOI: 10.1038/s41467-023-37327-w

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