1. A Trifecta of New Insights into Ovine Footrot for Infection Drivers, Immune Response, and Host-Pathogen Interactions
- Author
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Charlotte Back, Catrin S. Rutland, Jule K. Michler, Adam M. Blanchard, Sean Wattegedera, Ceri E. Staley, Christina-Marie Baumbach, Nerissa Newbold, Sabine Tötemeyer, Laurence Shaw, and Gary Entrican
- Subjects
Immunology ,Sheep Diseases ,Virulence ,Dichelobacter nodosus ,Microbiology ,Collagen Type I ,histology ,transcriptomics ,Immune system ,Animals ,Foot Rot ,Pathogen ,veterinary microbiology ,Skin ,Mycoplasma fermentans ,metagenomics ,Sheep ,metatranscriptomics ,Bacteria ,biology ,Host (biology) ,Immunity ,Host-Associated Microbial Communities ,biology.organism_classification ,Immunosurveillance ,Infectious Diseases ,Infectious disease (medical specialty) ,Host-Pathogen Interactions ,Parasitology ,Transcriptome - Abstract
Footrot is a polymicrobial infectious disease in sheep causing severe lameness, leading to one of the industry’s largest welfare problems. The complex etiology of footrot makesin situorin vitroinvestigations difficult. Computational methods offer a solution to understanding the bacteria involved and how they may interact with the host, ultimately providing a way to identify targets for future hypothesis-driven investigative work. Here, we present the first combined global analysis of bacterial community transcripts together with the host immune response in healthy and diseased ovine feet during a natural polymicrobial infection state using metatranscriptomics. The intratissue and surface bacterial populations and the most abundant bacterial transcriptomes were analyzed, demonstrating that footrot-affected skin has reduced diversity and increased abundances of not only the causative bacteriumDichelobacter nodosusbut also other species such asMycoplasma fermentansandPorphyromonas asaccharolytica. Host transcriptomics reveals the suppression of biological processes related to skin barrier function, vascular functions, and immunosurveillance in unhealthy interdigital skin, supported by histological findings that type I collagen (associated with scar tissue formation) is significantly increased in footrot-affected interdigital skin compared to outwardly healthy skin. Finally, we provide some interesting indications of host and pathogen interactions associated with virulence genes and the host spliceosome, which could lead to the identification of future therapeutic targets.
- Published
- 2021