Comparing the impact of mixed-culture microbial communities and fecal transplant on the intestinal microbiota and metabolome of weaned piglets

Abstract Fecal microbiota transplantation (FMT) is an emerging technique for modulating the pig microbiota, however, donor variability is one of the major reasons for inconsistent outcomes across studies. Cultured microbial communities may address some limitations of FMT; however, no study has tested cultured microbial communities as inocula in pigs. This pilot study compared the effects of microbiota transplants derived from sow feces to cultured mixed microbial community (MMC) following weaning. Control, FMT4X, and MMC4X were applied four times, while treatment FMT1X was administered once (n = 12/group). On postnatal day 48, microbial composition was modestly altered in pigs receiving FMT in comparison with Control (Adonis, P = .003), mainly attributed to reduced inter-animal variations in pigs receiving FMT4X (Betadispersion, P = .018). Pigs receiving FMT or MMC had consistently enriched ASVs assigned to genera Dialister and Alloprevotella. Microbial transplantation increased propionate production in the cecum. MMC4X piglets showed a trend of higher acetate and isoleucine compared to Control. A consistent enrichment of metabolites from amino acid metabolism in pigs that received microbial transplantation coincided with enhanced aminoacyl-tRNA biosynthesis pathway. No differences were observed among treatment groups for body weight or cytokine/chemokine profiles. Overall, FMT and MMC exerted similar effects on gut microbiota composition and metabolite production. This study compared the effects of microbiota transplants derived directly from healthy sow feces and cultured mixed microbial community on gut microbial composition, cecal metabolite profile, and circulating cytokines in piglets.