DOI: 10.1128/spectrum.00954-26 ISSN: 2165-0497
Lineage-associated differences in adenine methylation patterns of mammalian-associated
Campylobacter fetus
isolates: a possible role for epigenetic factors in host tropism and pathogenesis
Susan Nadin-Davis, Marc-Olivier Duceppe, Mingsong Kang, Emily Hoover, John Devenish ABSTRACT
Mammalian
Campylobacter fetus
(CF) is divided into two subspecies,
C. fetus fetus
(CFF) and
C. fetus venerealis
(CFV), the latter being bovine-adapted and responsible for the notifiable disease bovine genital campylobacteriosis (BGC). Differentiation between CF subspecies has traditionally been undertaken by a few biochemical tests, but these are complicated by the existence of a biotype,
C. fetus venerealis
intermedius (CFVi), which shares attributes of both CFF and CFV. Molecular methods targeting specific genes have gained acceptance for more accurate subtype identification and align well with whole-genome analysis. However, limited genomic diversity between subtypes has confounded efforts to understand the genetic basis for differential host tropism and pathogenesis of these organisms. A previous study of a small cohort of
C. fetus
isolates suggested that
dam
gene coding variations might correlate with CF subtype. Accordingly, this study examines a cohort of 331
C. fetus
genomes, representative of all seven phylogenetic groups for their complement of adenine methylases and the genomic motifs they target in representative isolates. All CF isolates retained a
cfeM1
gene, the presence of which correlates with RAATTY methylation, while seven other adenine methylase genes exhibited distinct cladal distributions. Notably, a
cjeM1
gene appears to target the CCAN7TAG/CTAN7TGG motif in CFV and CFVi isolates only. Given the increasing recognition of the impact of adenine methylation on bacterial-host interactions, further exploration of the role of adenine methylation in
C. fetus
pathogenesis could reveal mechanisms contributing to BGC and thus aid in its eradication.
IMPORTANCE
Campylobacter fetus
remains an important zoonotic pathogen, for which a better understanding of its host tropism and pathogenesis is sought. However, the limited genomic variation observed between subtypes has to date confounded efforts in this regard. This study suggests that an alternative approach that examines epigenetic differences between subtypes, specifically adenine methylation patterns, may reveal mechanisms critical to the pathologies of these organisms.