6533b7d3fe1ef96bd125ff92

RESEARCH PRODUCT

A bug's life: Delving into the challenges of helminth microbiome studies.

subject

description

The body of vertebrates is inhabited by trillions of microorganisms, i.e. viruses, archaea, bacteria and unicellular eukaryotes, together referred to as the ‘microbiota’. Similarly, vertebrates also host a plethora of parasitic worms (the ‘macrobiota’), some of which share their environment with the microbiota inhabiting the gastrointestinal tract [1]. Complex interactions between the helminths and the gut microbiota have been associated with establishment of parasite infection, disease manifestations, and host immune-modulation [2, 3]. Remarkably, not only enteric helminths alter the 26 gut microbiome composition [4], but also the infection with blood flukes of the genus Schistosoma has been associated to intestinal dysbiosis even before the onset of egg laying [5, 6]. Comparably, over the last decade, evidence has emerged of the contribution(s) of the resident microbiota to several physiological and reproductive processes of invertebrate hosts, including insects, arachnids, worms and snails [7, 8]. These noteworthy discoveries, coupled with 30 the recent expansion of high-throughput microbiota- and microbiome-profiling approaches (the former referring to a community of microorganisms themselves, and the latter to the microorganisms and their genomes, in a ecological niche), are rapidly leading to a much better understanding of the composition and functions of microbial communities inhabiting parasitic worms of major public health and socio-economic significance. This basic knowledge might expose exploitable vulnerabilities of parasites, paving the way to the development of novel control strategies [9].