Abstract
Classical molecular analyses of Mycobacterium bovis based on spoligotyping and Variable Number Tandem Repeat (MIRU-VNTR) brought the first insights into the epidemiology of animal tuberculosis (TB) in Portugal, showing high genotypic diversity of circulating strains that mostly cluster within the European 2 clonal complex. Previous surveillance provided valuable information on the prevalence and spatial occurrence of TB and highlighted prevalent genotypes in areas where livestock and wild ungulates are sympatric. However, links at the wildlife–livestock interfaces were established mainly via classical genotype associations. Here, we apply whole genome sequencing (WGS) to cattle, red deer and wild boar isolates to reconstruct the M. bovis population structure in a multi-host, multi-region disease system and to explore links at a fine genomic scale between M. bovis from wildlife hosts and cattle. Whole genome sequences of 44 representative M. bovis isolates, obtained between 2003 and 2015 from three TB hotspots, were compared through single nucleotide polymorphism (SNP) variant calling analyses. Consistent with previous results combining classical genotyping with Bayesian population admixture modelling, SNP-based phylogenies support the branching of this M. bovis population into five genetic clades, three with apparent geographic specificities, as well as the establishment of an SNP catalogue specific to each clade, which may be explored in the future as phylogenetic markers. The core genome alignment of SNPs was integrated within a spatiotemporal metadata framework to further structure this M. bovis population by host species and TB hotspots, providing a baseline for network analyses in different epidemiological and disease control contexts. WGS of M. bovis isolates from Portugal is reported for the first time in this pilot study, refining the spatiotemporal context of TB at the wildlife–livestock interface and providing further support to the key role of red deer and wild boar on disease maintenance. The SNP diversity observed within this dataset supports the natural circulation of M. bovis for a long time period, as well as multiple introduction events of the pathogen in this Iberian multi-host system.
Highlights
Mycobacterium bovis is an important pathogen, responsible for causing animal tuberculosis (TB) in livestock and wildlife vertebrates, as well as in humans [1,2]
M. bovis dataset recovered in Portugal (n = 487) that was previously submitted for molecular characterization by classical genotyping techniques, namely spoligotyping and 8 loci MIRUVNTR (Supplementary Figure S1) [18]
The sequence reads of 44 M. bovis whole genomes representing the genetic diversity of strains circulating in TB hotspots in Portugal were mapped to the assembled reference genome of M. bovis AF2122/97 (LT708304.1) (Supplementary Table S1)
Summary
Mycobacterium bovis is an important pathogen, responsible for causing animal tuberculosis (TB) in livestock and wildlife vertebrates, as well as in humans [1,2]. The presence of maintenance hosts in the wild is associated with difficulties in the success of test and slaughter schemes implemented in the cattle population, but it brings concerns regarding wildlife welfare, biodiversity and public health. Most eradication programs in place are focused on cattle and based on test-and-slaughter approaches, movement restrictions and post-mortem surveillance at slaughterhouses [13]. The program is based on the detection and slaughter of reactors to the single intradermal comparative cervical tuberculin test (SICCT), routine surveillance at slaughterhouses, mandatory sanitary classification of herds and regions, compulsory slaughter of reactors, monetary compensation to owners of slaughtered animals and pre-movement testing [14]. Passive surveillance measures have been applied since 2011 on hunted-harvested red deer and wild boar in a defined epidemiological risk area for big game species located in south-central Portugal [16]
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