Examination of Mycobacterium avium subspecies paratuberculosis mixed genotype infections in dairy animals using a whole genome sequencing approach.

Fraser W Davidson,Kapil Tahlan,Christina Ahlstrom,Hugh G Whitney,Jeroen De Buck

doi:10.7717/peerj.2793

Fraser W Davidson, Kapil Tahlan + Show 3 more

Open Access

https://doi.org/10.7717/peerj.2793

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Journal: PeerJ	Publication Date: Dec 14, 2016
Citations: 14	License type: CC BY 4.0

Affiliation: Memorial University of Newfoundland, University of Calgary

Abstract

Many pathogenic mycobacteria are known to cause severe disease in humans and animals. M. avium subspecies paratuberculosis (Map) is the causative agent of Johne’s disease—a chronic wasting disease affecting ruminants such as cattle and sheep, responsible for significant economic losses in the dairy and beef industries. Due to the lack of treatment options or effective vaccines, mitigating losses can be difficult. In addition, the early stages of Map infection may occur in asymptomatic hosts that continue to shed viable bacteria in their faeces, leading to the infection of other healthy animals. Using multi-locus short sequence repeat (ML-SSR) analysis we previously reported that individual Johne’s positive dairy cattle from farms across the island of Newfoundland were infected by Map with multiple SSR-types simultaneously. The occurrence of multiple mixed genotype infections has the potential to change pathogen and disease dynamics as well as reduce the efficacy of treatments and vaccines. Therefore, we conducted whole genome sequencing (WGS) and single nucleotide polymorphism (SNP) analysis on a subset of these isolates for a more in-depth examination. We also implemented a PCR assay using two discriminatory SNPs and demonstrated the incidence of a mixed infection by three genotypically diverse Map isolates in a single animal. In addition, results show that WGS and SNP analysis can provide a better understanding of the relationship between Map isolates from individual and different animals. In the future such studies on the occurrence of mixed genotype infections could potentially lead to the identification of variable pathogenicity of different genotypes and allow for better tracking of Map isolates for epidemiological studies.

Highlights

The genus Mycobacterium is comprised of acid-fast bacilli, some of which are pathogenic and cause severe disease in humans and animals
We recently reported that on more than one occasion, M. avium subspecies paratuberculosis (Map) with different short sequence repeat (SSR) types could be isolated from single animals from dairy farms from Newfoundland (NL), Canada (Podder et al, 2015), suggesting mixed genotype infections
We used whole genome sequencing (WGS), single nucleotide polymorphism (SNP) calling and phylogenetics to analyze six NL Map isolates with different SSR-types (Podder et al, 2015) with the purpose examining their genetic relatedness/diversity at a higher resolution

Summary

Introduction

The genus Mycobacterium is comprised of acid-fast bacilli, some of which are pathogenic and cause severe disease in humans and animals. There have been numerous WGS studies that have examined the genetic diversity of Map from dairy animals (Ahlstrom et al, 2015; Bryant et al, 2016; Ahlstrom et al, 2016; Yue et al, 2016; Leão et al, 2016), but none which have analyzed or addressed mixed Map genotype infections using multiple isolates from a single animal.

Results

Conclusion