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Author Notes:

Amanda C. Smith, ashurzi@emory.edu

A.C.S. and M.A.H. designed the study. A.C.S. conducted all of the experiments. A.C.S. and M.A.H. analyzed the data. A.C.S., L.T.M., and M.A.H. wrote, reviewed, and edited the manuscript.

We thank Eduardo Scopel Ferreira Da Costa (University of Georgia), Abdul-Rhanman Adamu Bukari (University of Manitoba), and Venkat Talla (Emory University) for helpful discussions regarding sequencing analysis. We also thank Ognenka Avramovska for thoughtful conversations and critical reading of the manuscript.

Subject:

Research Funding:

This research is supported by NSF DEB-1943415 (M.A.H.), NSF DEB-1750553 (L.T.M.), and Emory University startup funds (M.A.H.).

Keywords:

  • Caenorhabditis elegans
  • Candida albicans
  • fungal genomics
  • genetics
  • innate immunity
  • reactive oxygen species
  • Candida albicans
  • Defense Mechanisms
  • Genomic Instability
  • Reactive Oxygen Species
  • Virulence

Host Defense Mechanisms Induce Genome Instability Leading to Rapid Evolution in an Opportunistic Fungal Pathogen

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Journal Title:

Infection and Immunity

Volume:

Volume 90, Number 2

Publisher:

, Pages e0032821-e0032821

Type of Work:

Article | Final Publisher PDF

Abstract:

The ability to generate genetic variation facilitates rapid adaptation in stressful environments. The opportunistic fungal pathogen Candida albicans frequently undergoes large-scale genomic changes, including aneuploidy and loss of heterozygosity (LOH), following exposure to host environments. However, the specific host factors inducing C. albicans genome instability remain largely unknown. Here, we leveraged the genetic tractability of nematode hosts to investigate whether innate immune components, including antimicrobial peptides (AMPs) and reactive oxygen species (ROS), induced host-associated C. albicans genome instability. C. albicans associated with immunocompetent hosts carried multiple large-scale genomic changes, including LOH and whole-chromosomal and segmental aneuploidies. In contrast, C. albicans associated with immunocompromised hosts deficient in AMPs or ROS production had reduced LOH frequencies and fewer, if any, additional genomic changes. To evaluate whether extensive host-induced genomic changes had long-term consequences for C. albicans adaptation, we experimentally evolved C. albicans in either immunocompetent or immunocompromised hosts and selected for increased virulence. C. albicans evolved in immunocompetent hosts rapidly increased virulence, but C. albicans evolved in immunocompromised hosts did not. Taken together, this work suggests that host-produced ROS and AMPs induces genotypic plasticity in C. albicans which facilitates rapid evolution.

Copyright information:

© 2022 American Society for Microbiology.

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