Genomics of Irish swine-derived Streptococcus suis : Population structure, prophages, and anti-viral defence mechanisms

Streptococcus suis is a major pig pathogen with zoonotic potential, posing an occupational risk to farmers and meat handlers. We characterised 110 S. suis strains from diseased pigs in Ireland (2005–2022) using whole-genome sequencing to investigate population structure and phage-host dynamics. We identified fifteen distinct serotypes, with serotypes 9 and 2 being the most dominant. In silico multi-locus sequence typing revealed high diversity within the collection, identifying several sequence types (STs), including 26 novel STs. Investigation of strain-level genomic clustering using PopPUNK against global S. suis genomes showed that the Irish isolates were phylogenetically dispersed across the broader global S. suis population rather than clustering in a single clonal group. The majority of Irish isolates fall within the ten established pathogenic lineages, including the highly virulent zoonotic lineage 1. A stable endemic clonal lineage was identified among Irish isolates, showing minimal genetic variation over a decade.

Prophage analysis revealed novel viral taxa that were interspersed among known streptococcal phages, rather than clustering distinctly. Restriction-modification systems were the predominant anti-viral defence systems identified across genomes. CRISPR-Cas systems were present in limited strains but showed substantial targeting bias toward full-length prophages, indicating ongoing phage pressure. CRISPR spacers matched non- S. suis streptococcal phages, and phylogenomic analysis revealed that Vansinderenvirus phages clustered with S. suis rather than other S. thermophilus phages, suggesting evolutionary connections between phage lineages infecting different streptococci.

This study presents the first comprehensive genomic characterisation of S. suis in Ireland, revealing a diverse population with significant implications for animal and human health.