Journal of Fungi (Nov 2023)

Optimization of <i>Aspergillus versicolor</i> Culture and Aerosolization in a Murine Model of Inhalational Fungal Exposure

  • Catherine B. Blackwood,
  • Tara L. Croston,
  • Mark A. Barnes,
  • Angela R. Lemons,
  • Rachael E. Rush,
  • Travis Goldsmith,
  • Walter G. McKinney,
  • Stacey Anderson,
  • Kelly L. Weaver,
  • Michael Sulyok,
  • Ju-Hyeong Park,
  • Dori Germolec,
  • Donald H. Beezhold,
  • Brett Green

DOI
https://doi.org/10.3390/jof9111090
Journal volume & issue
Vol. 9, no. 11
p. 1090

Abstract

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Aspergillus versicolor is ubiquitous in the environment and is particularly abundant in damp indoor spaces. Exposure to Aspergillus species, as well as other environmental fungi, has been linked to respiratory health outcomes, including asthma, allergy, and even local or disseminated infection. However, the pulmonary immunological mechanisms associated with repeated exposure to A. versicolor have remained relatively uncharacterized. Here, A. versicolor was cultured and desiccated on rice then placed in an acoustical generator system to achieve aerosolization. Mice were challenged with titrated doses of aerosolized conidia to examine deposition, lymphoproliferative properties, and immunotoxicological response to repeated inhalation exposures. The necessary dose to induce lymphoproliferation was identified, but not infection-like pathology. Further, it was determined that the dose was able to initiate localized immune responses. The data presented in this study demonstrate an optimized and reproducible method for delivering A. versicolor conidia to rodents via nose-only inhalation. Additionally, the feasibility of a long-term repeated exposure study was established. This experimental protocol can be used in future studies to investigate the physiological effects of repeated pulmonary exposure to fungal conidia utilizing a practical and relevant mode of delivery. In total, these data constitute an important foundation for subsequent research in the field.

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