Frontiers in Veterinary Science (Aug 2022)

Temporal changes of the respiratory microbiota as cats transition from health to experimental acute and chronic allergic asthma

  • Aida I. Vientós-Plotts,
  • Aida I. Vientós-Plotts,
  • Aida I. Vientós-Plotts,
  • Aaron C. Ericsson,
  • Aaron C. Ericsson,
  • Aaron C. Ericsson,
  • Zachary L. McAdams,
  • Hansjorg Rindt,
  • Hansjorg Rindt,
  • Carol R. Reinero,
  • Carol R. Reinero,
  • Carol R. Reinero

DOI
https://doi.org/10.3389/fvets.2022.983375
Journal volume & issue
Vol. 9

Abstract

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In humans, deviation from a core airway microbiota may predispose to development, exacerbation, or progression of asthma. We proposed to describe microbiota changes using 16 rRNA sequencing in samples from the upper and lower airways, and rectal swabs of 8 cats after experimental induction of asthma using Bermuda grass allergen, in acute (6 weeks) and chronic (36 weeks) stages. We hypothesized that asthma induction would decrease richness and diversity and alter microbiota composition and structure in the lower airways, without significantly impacting other sites. After asthma induction, richness decreased in rectal (p = 0.014) and lower airway (p = 0.016) samples. B diversity was significantly different between health and chronic asthma in all sites, and between all time points for lower airways. In healthy lower airways Pseudomonadaceae comprised 80.4 ± 1.3% whereas Sphingobacteriaceae and Xanthobacteraceae predominated (52.4 ± 2.2% and 33.5 ± 2.1%, respectively), and Pseudomonadaceae was absent, in 6/8 cats with chronic asthma. This study provides evidence that experimental induction of asthma leads to dysbiosis in the airways and distant sites in both the acute and chronic stages of disease. This article has been published alongside “Respiratory dysbiosis in cats with spontaneous allergic asthma” (1).

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