Abstract
Echinococcus multilocularis (Em) is a zoonotic parasite considered a global emergent pathogen. Recent findings indicate that the parasite is expanding its range in North America and that European-type haplotypes are circulating in western Canada. However, genetic analyses are usually conducted only on a few parasites out of thousands of individuals within each definitive host, likely underestimating the prevalence of less common haplotypes. Moreover, mixed infections with several mtDNA haplotypes in the same host have been reported, but their relative abundance within the host was never estimated. We aimed to 1) estimate the frequency of co-infections of different Em haplotypes in coyotes (Canis latrans) and red foxes (Vulpes vulpes) from western Canada and their relative abundance within the definitive hosts, 2) detect less prevalent haplotypes by sampling a larger proportion of the parasite subpopulation per host, and 3) investigate differences in the distribution of Em haplotypes in these main definitive hosts; foxes and coyotes. We extracted DNA from ~10% of the worm subpopulation per host (20 foxes and 47 coyotes) and used deep amplicon sequencing (NGS technology) on four loci, targeting the most polymorphic regions from the mitochondrial genes cox1 (814 bp), nad1 (344 bp), and cob (387 bp). We detected the presence of mixed infections with multiple Em haplotypes and with different Echinococcus species including Em and E. granulosus s.l. genotypes G8/G10, low intraspecific diversity of Em, and a higher abundance of the European-type haplotypes in both hosts. Our results suggest a population expansion of the European over the North American strain in Alberta and a limited distribution of some European-type haplotypes. Our findings indicate that deep amplicon sequencing represents a valuable tool to characterize Em in multiple hosts, to assess the current distribution and possible origins of the European strain in North America. The potential use of next-generation sequencing technologies is particularly important to understand the patterns of geographic expansion of this parasite.
Highlights
Echinococcosis is a chronic zoonotic disease, caused by the larvae of Echinococcus spp. that affects humans as well as domestic and wild animals, representing a significant public health concern in many countries throughout the world [1,2]
Despite Em being common in North America, only two locally acquired alveolar echinococcosis (AE) human cases were reported in North America until 2013
In the last 6 years, 14 new cases have been detected in Alberta, Canada, and recent findings showed that the European strain of this parasite is common in wildlife in this province, which could potentially increase the risk of infection in humans and domestic animals
Summary
Echinococcosis is a chronic zoonotic disease, caused by the larvae of Echinococcus spp. that affects humans as well as domestic and wild animals, representing a significant public health concern in many countries throughout the world [1,2]. Due to their worldwide distribution [3], the genetic characterization of these parasites is key to assess public and animal health risk, as individual genetic variants may have different pathogenic effects in their hosts, including humans [4]. Only two haplotypes of the North American strain (N1 and N2) were found respectively in the two historical endemic regions: in the Northern Tundra Zone in Alaska and the Canadian Arctic; and in the Northern Central region, which includes the southern area of three Canadian provinces
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