Stable and ancient endocytic structures navigate the complex pellicle of apicomplexan parasites

Author:

Koreny LudekORCID,Mercado-Saavedra Brandon N.ORCID,Klinger Christen M.,Barylyuk KonstantinORCID,Butterworth SimonORCID,Hirst JenniferORCID,Rivera-Cuevas YolandaORCID,Zaccai Nathan R.ORCID,Holzer Victoria J. C.,Klingl AndreasORCID,Dacks Joel B.ORCID,Carruthers Vern B.ORCID,Robinson Margaret S.,Gras SimonORCID,Waller Ross F.ORCID

Abstract

ABSTRACTApicomplexan parasites have an immense impact on humanity, but their basic cellular processes are often poorly understood. The sites of endocytosis, the conservation of this process with other eukaryotes, and its functions across Apicomplexa are major unanswered questions. Yet endocytosis inPlasmodiumis implicated in antimalarial drug failure. Using the apicomplexan modelToxoplasma, we identified the molecular composition and behavior of unusual, fixed endocytic structures. Here, stable complexes of endocytic proteins differ markedly from the dynamic assembly/disassembly of these machineries in other eukaryotes. Moreover, conserved molecular adaptation of this structure is seen in Apicomplexa, including the kelch-domain protein K13 central to malarial drug-resistance. We determine that an essential function of endocytosis inToxoplasmais plasma membrane homeostasis, rather than parasite nutrition, and that these specialized endocytic structures originated early in infrakingdom Alveolata, likely in response to the complex cell pellicle that defines this medically and ecologically important ancient eukaryotic lineage.

Publisher

Cold Spring Harbor Laboratory

Reference95 articles.

1. VEuPathDB: The eukaryotic pathogen, vector and host bioinformatics resource center;Nucleic Acids Research,2022

2. Cytoskeleton assembly in Toxoplasma gondii cell division;In International Review of Cell and Molecular Biology,2012

3. A family of intermediate filament-like proteins is sequentially assembled into the cytoskeleton of Toxoplasma gondii

4. R Core Team (2021). R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. URL https://www.R-project.org/.

5. Presence of apicomplexan-type micropores in a parasitic dinoflagellate, Hematodinium sp.

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