Amoeba Predation ofCryptococcus: A Quantitative and Population Genomic Evaluation of the Accidental Pathogen Hypothesis

Autor: Thomas J. C. Sauters, Cullen Roth, Debra Murray, Sheng Sun, Anna Floyd-Averette, Chinaemerem U. Onyishi, Robin C. May, Joseph Heitman, Paul Magwene
Rok vydání: 2022
DOI: 10.1101/2022.12.08.519367
Popis: The “Amoeboid Predator-Fungal Animal Virulence Hypothesis” posits that interactions with environmental phagocytes shape the evolution of virulence traits in fungal pathogens. In this hypothesis, selection to avoid predation by amoeba inadvertently selects for traits that contribute to fungal escape from phagocytic immune cells. Here, we investigate this hypothesis in the human fungal pathogensCryptococcus neoformansandCryptococcus deneoformans. Applying quantitative trait locus (QTL) mapping and comparative genomics, we discovered a cross-species QTL region that is responsible for variation in resistance to amoeba predation. InC. neoformans, this same QTL was found to have pleiotropic effects on melanization, an established virulence factor. Through fine mapping and population genomic comparisons, we identified the gene encoding the transcription factorBZP4that underlies this pleiotropic QTL and we show that decreased expression of this gene reduces melanization and increases susceptibility to amoeba predation. Despite the joint effects ofBZP4on amoeba resistance and melanin production, we find no relationship betweenBZP4genotype and escape from macrophages or virulence in murine models of disease. Our findings provide new perspectives on how microbial ecology shapes the genetic architecture of fungal virulence, and suggests the need for more nuanced models for the evolution of pathogenesis that account for the complexities of both microbe-microbe and microbe-host interactions.
Databáze: OpenAIRE