Fusobacterium necrophorum is an important pathogen associated with several infectious diseases in cattle. However, recent sequencing-based studies reported that F. necrophorum may be positively associated with pregnancy in beef cows and that Fusobacterium is highly abundant in bull seminal microbiota with potential involvement in reproductive health and fertility. Here, we performed a comprehensive screening to (i) determine the prevalence of Fusobacterium necrophorum (subspecies necrophorum [FNN] and funduliforme [FNF]) and Fusobacterium varium (FV) in the reproductive microbiota of cattle and sheep as well as bovine digestive tract ecosystems, and (ii) explore whether these Fusobacterium spp. colonize calf prenatally. For this, we screened 11 different sample types including bovine and ram semen, bovine vaginal and uterine swabs, and bull fecal samples, as well as samples from 180- and 260-day-old calf fetuses and their respective dams using both quantitative PCR (qPCR; 514 samples) and targeted culturing (499 samples). By qPCR, all the targeted Fusobacterium spp. were detected across all sample types with varying prevalence rates and viability. FNF was highly prevalent in the bull semen (66.7%) and maternal ruminal fluids (87.1%), and its viability was confirmed through culturing. All the targeted Fusobacterium spp. were identified in vaginal and uterine swab samples (3.1%-9.4%), caruncles, fetal fluids, rumen, and meconium samples (2.7%-26.3%) by qPCR but were not isolated by culture method. Overall, our results, for the first time, suggest that F. necrophorum is a commensal member of healthy male reproductive microbiota, and that FNF, FNN, and FV are present in bovine vagino-uterine microbiota and calf intestine prenatally.IMPORTANCERecent sequencing-based studies suggest that Fusobacterium, including F. necrophorum, a known primary etiological agent for several important infectious diseases in cattle, may be non-pathogenic members of the reproductive microbiota with pro-fertility effects. However, further information regarding the absolute abundance, viability, and higher taxonomic resolution of the Fusobacterium species and subspecies which cannot be achievable by the amplicon sequencing approach is needed to confirm the commensal and non-pathogenic status of the Fusobacterium spp. in cattle. Here, we performed a comprehensive screening of F. necrophorum subspecies necrophorum, F. necrophorum subspecies funduliforme, and Fusobacterium varium from over 500 samples from 11 different sample types using targeted culturing and qPCR. Overall, our results provide novel insights into the prevalence and viability of Fusobacterium spp. in bovine male and female reproductive tracts and their presence in calf fetuses, which will serve as the basis for further research into understanding the role of Fusobacterium in cattle fertility.
Keywords: Fusobacterium spp.; cattle; culture method; fetus; male and female reproductive microbiome; prevalence; qPCR.