Molecular surveillance of zoonotic bacterial pathogens in farm dwelling peridomestic rodents across the upper Midwest, USA

2021 
The effective control of rodent populations on farms is a critical component of food- safety, as rodents are reservoirs and vectors for many foodborne pathogens in addition to several zoonotic pathogens. The functional role of rodents in the amplification and transmission of pathogens is likely underappreciated. Clear links have been identified between rodents and outbreaks of pathogens throughout Europe and Asia, however, comparatively little research has been devoted to studying this rodent-agricultural interface in the USA, particularly across the Midwest. Here, we address this existing knowledge gap by characterizing the metagenomic communities of rodent pests collected from Minnesota and Wisconsin food animal farms. We leveraged the Oxford Nanopore MinION sequencer to provide a rapid real-time survey of the putative zoonotic food- borne and other human pathogens. Rodents (mice and rats) were live trapped from three dairy and mixed animal farms. Tissues and fecal samples were collected from all rodents. DNA extraction was performed on 90 rodent colons along with 2 shrew colons included as outgroups in the study. Full-length 16S amplicon sequencing was performed with the MinION. Our data suggests the presence of putative foodborne pathogens including Salmonella spp., Campylobacter spp., Staphylococcus aureus, and Clostridium spp., along with many important mastitis pathogens. A critically important observation is that we discovered these pathogens within all five species of rodents (Microtus pennsylvanicus, Mus musculus, Peromyscus leucopus, Peromyscus maniculatus, and Rattus norvegicus) and shrew (Blarina brevicauda) in varying abundances. Interestingly, we observed a higher abundance of enteric pathogens (e.g. Salmonella) in shrew feces compared to the rodents analyzed in our study, however more data is required to establish that connection. Knowledge gained from our research efforts will directly inform and improve upon farm-level biosecurity efforts and public health interventions to reduce future outbreaks of foodborne and zoonotic disease.
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