1. Amphibian mast cells serve as barriers to chytrid fungus infections.
- Author
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Hauser KA, Garvey CN, Crow RS, Hossainey MRH, Howard DT, Ranganathan N, Gentry LK, Yaparla A, Kalia N, Zelle M, Jones EJ, Duttargi AN, Rollins-Smith LA, Muletz-Wolz CR, and Grayfer L
- Subjects
- Animals, Mycoses immunology, Mycoses veterinary, Mycoses microbiology, Microbiota, Mast Cells immunology, Mast Cells microbiology, Mast Cells metabolism, Xenopus laevis microbiology, Xenopus laevis immunology, Skin microbiology, Skin immunology, Batrachochytrium
- Abstract
Global amphibian declines are compounded by deadly disease outbreaks caused by the chytrid fungus, Batrachochytrium dendrobatidis ( Bd ). Much has been learned about the roles of amphibian skin-produced antimicrobial components and microbiomes in controlling Bd , yet almost nothing is known about the roles of skin-resident immune cells in anti- Bd defenses. Mammalian mast cells reside within and serve as key immune sentinels in barrier tissues like skin. Accordingly, we investigated the roles of Xenopus laevis frog mast cells during Bd infections. Our findings indicate that enrichment of X. laevis skin mast cells confers anti- Bd protection and ameliorates the inflammation-associated skin damage caused by Bd infection. This includes a significant reduction in infiltration of Bd -infected skin by neutrophils, promoting mucin content within cutaneous mucus glands, and preventing Bd -mediated changes to skin microbiomes. Mammalian mast cells are known for their production of the pleiotropic interleukin-4 (IL4) cytokine and our findings suggest that the X. laevis IL4 plays a key role in manifesting the effects seen following cutaneous mast cell enrichment. Together, this work underscores the importance of amphibian skin-resident immune cells in anti- Bd defenses and illuminates a novel avenue for investigating amphibian host-chytrid pathogen interactions., Competing Interests: KH, CG, RC, MH, DH, NR, LG, AY, NK, MZ, EJ, AD, LR, CM, LG No competing interests declared, (© 2023, Hauser et al.)
- Published
- 2024
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