# Toxoplasma and Plasmodium associate with host Arfs during infection

**Authors:** Erin A. Schroeder, Maria Toro-Moreno, Rene Raphemot, Kayla Sylvester, Isabel C. Colón, Emily R. Derbyshire

PMC · DOI: 10.1128/msphere.00770-23 · mSphere · 2024-02-13

## TL;DR

This study explores how Toxoplasma and Plasmodium parasites manipulate host cell trafficking proteins to acquire nutrients during infection.

## Contribution

The study reveals distinct mechanisms by which Toxoplasma gondii and Plasmodium berghei subvert host Arf proteins for nutrient acquisition.

## Key findings

- Toxoplasma gondii internalizes host Arf proteins, particularly Arf1, into its vacuole for nutrient acquisition.
- Plasmodium berghei restricts Arf proteins from its vacuole but relies on Arf4 and GBF1 for liver stage development.
- Host vesicular trafficking is subverted differently by apicomplexan parasites to support their replication.

## Abstract

The apicomplexans Toxoplasma gondii and Plasmodium are intracellular parasites that reside within a host-derived compartment termed the parasitophorous vacuole (PV). During infection, the parasites must acquire critical host resources and transport them across their PV for development. However, the mechanism by which host resources are trafficked to and across the PV remains uncertain. Here, we investigated host ADP ribosylation factors (Arfs), a class of proteins involved in vesicular trafficking that may be exploited by T. gondii and Plasmodium berghei for nutrient acquisition. Using overexpressed Arf proteins coupled with immunofluorescence microscopy, we found that all Arfs were internalized into the T. gondii PV, with most vacuoles containing at least one punctum of Arf protein by the end of the lytic cycle. We further characterized Arf1, the most abundant Arf inside the T. gondii PV, and observed that active recycling between its GDP/GTP-bound state influenced Arf1 internalization independent of host guanine nucleotide exchange factors (GEFs). In addition, Arf1 colocalized with vesicle coat complexes and exogenous sphingolipids, suggesting a role in nutrient acquisition. While Arf1 and Arf4 were not observed inside the PV during P. berghei infection, our gene depletion studies showed that liver stage development and survival depended on the expression of Arf4 and the host GEF, GBF1. Collectively, these observations indicate that apicomplexans use distinct mechanisms to subvert the host vesicular trafficking network and efficiently replicate. The findings also pave the way for future studies to identify parasite proteins critical to host vesicle recruitment and the components of vesicle cargo.

The parasites Toxoplasma gondii and Plasmodium live complex intracellular lifestyles where they must acquire essential host nutrients while avoiding recognition. Although previous work has sought to identify the specific nutrients scavenged by apicomplexans, the mechanisms by which host materials are transported to and across the parasite vacuole membrane are largely unknown. Here, we examined members of the host vesicular trafficking network to identify specific pathways subverted by T. gondii and Plasmodium berghei. Our results indicate that T. gondii selectively internalizes host Arfs, a class of proteins involved in intracellular trafficking. For P. berghei, host Arfs were restricted by the parasite’s vacuole membrane, but proteins involved in vesicular trafficking were identified as essential for liver stage development. A greater exploration into how and why apicomplexans subvert host vesicular trafficking could help identify targets for host-directed therapeutics.

## Linked entities

- **Genes:** ARF1 (ARF GTPase 1) [NCBI Gene 375], ARF4 (ARF GTPase 4) [NCBI Gene 378], GBF1 (golgi brefeldin A resistant guanine nucleotide exchange factor 1) [NCBI Gene 8729]
- **Species:** Toxoplasma gondii (taxon 5811), Plasmodium berghei (taxon 5821)

## Full-text entities

- **Diseases:** infection (MESH:D007239)
- **Chemicals:** GDP (MESH:D006153), GTP (MESH:D006160), sphingolipids (MESH:D013107)
- **Species:** Toxoplasma gondii (species) [taxon 5811], Plasmodium berghei (species) [taxon 5821]

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC10964417/full.md

## References

48 references — full list in the complete paper: https://tomesphere.com/paper/PMC10964417/full.md

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Source: https://tomesphere.com/paper/PMC10964417