# Phylogenetic analysis of pathogenic algae reveals lineage-dependent patterns of phagocytosis

**Authors:** Christopher D. Shave, Mohammed J. A. Haider, Chinaemerem U. Onyishi, Megan C. McDonald, Leanne Stones, Tomasz Jagielski, Robin C. May

PMC · DOI: 10.1128/mbio.00498-25 · 2025-04-30

## TL;DR

This study uses phylogenetics and live-cell imaging to show how different algae species interact with mammalian immune cells in a host-dependent way.

## Contribution

The study introduces five new organelle-encoded genes for phylogenetic analysis and reveals lineage-dependent phagocytosis patterns in pathogenic algae.

## Key findings

- Phylogenetic analysis using five new genes clarifies relationships within the AHP lineage.
- Phagocytosis dynamics vary based on host cell type and algal species.
- The findings highlight lineage-based differences in immune interactions with pathogenic algae.

## Abstract

Prototheca is an unusual genus of algae that lack chlorophyll and are obligate heterotrophs. To date, six paraphyletic pathogenic species have been identified in the context of vertebrates, principally in cattle-associated and human-associated infections. Together with the genus Auxenochlorella and Helicosporidium, rDNA sequence analysis currently favors grouping Prototheca under a clade known as the Auxenochlorella, Helicosporidium and Prototheca (AHP) lineage. Most studies so far have focused only on Prototheca bovis and Prototheca ciferrii as cattle-associated species and on Prototheca wickerhamii as a human-associated species. However, such studies remain limited in scope as they focus on only three species of Prototheca, which is not representative of the total number of species within the AHP lineage. In this study, we employ a phylogenetics approach based on five new organelle-encoded genes to delineate higher-level relationships within the AHP lineage. We use the resultant data to then guide a live-cell imaging-based investigation of aspects of the mammalian innate immune response to 11 Prototheca species and four Auxenochlorella species. Our data reveal varying patterns of phagocytosis dynamics that are both host cell type- and algal species-dependent. Together, these findings reveal the interaction between pathogen phylogeny and host immune response, revealing ways to identify new therapeutic targets in the future.

Protothecosis is a rare algal infection caused by members of the genus Prototheca, which is comprised of unusual non-photosynthetic algae. Six pathogenic species have been identified so far that can cause infection in vertebrates, primarily cattle and humans. The phylogeny of this genus remains obscure and has been revised multiple times recently. However, this phylogeny has largely been based on only three species of Prototheca. To resolve this phylogenetic conundrum, here, we employ a phylogenetics approach based on five new organelle-encoded genes. We then use these data to perform live-cell imaging of a selected range of Prototheca species co-cultured with mammalian immune cells. Visualizing these phagocytic interactions in this context helps delineate both host cell-type- and species-dependent differences in phagocytic uptake, thereby providing novel insight into lineage-based differences.

## Linked entities

- **Diseases:** protothecosis (MONDO:0700045)
- **Species:** Prototheca (taxon 3110), Auxenochlorella (taxon 191392), Helicosporidium (taxon 145474), Prototheca bovis (taxon 2509265), Prototheca ciferrii (taxon 1973153), Prototheca wickerhamii (taxon 3111)

## Full-text entities

- **Diseases:** Protothecosis (MESH:C000656805), infection (MESH:D007239)
- **Chemicals:** chlorophyll (MESH:D002734)
- **Species:** PX clade (clade) [taxon 569578], Prototheca wickerhamii (species) [taxon 3111], Auxenochlorella (genus) [taxon 191392], Helicosporidium (genus) [taxon 145474], Homo sapiens (human, species) [taxon 9606], Bos taurus (bovine, species) [taxon 9913]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12153285/full.md

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Source: https://tomesphere.com/paper/PMC12153285