Fusobacterium nucleatum is a common member of the oral microbiota frequently associated with extra-oral infections and diverse polymicrobial environments, including chronic airway diseases and colorectal tumors. Yet, its interactions with co-colonizing microbiota remain poorly defined. Here, we investigate cross-feeding interspecies dynamics between F. nucleatum and Segatella oris, a glycan-foraging anaerobe enriched in the airways, oral cavity, and gastrointestinal tumors. Using broth cultures, cell-free supernatants, and co-culture on primary human airway epithelial cells, we identify microbe-microbe and microbe-host interactions that shape nutrient acquisition, biofilm formation, gene expression, and host responses. While mucin or S. oris supernatants modestly enhanced F. nucleatum growth, both conditions triggered transcriptional remodeling, including induction of the nan operon for sialic acid catabolism, suggesting reliance on glycan degradation by S. oris. Conversely, S. oris exhibited differential expression of multiple polysaccharide utilization loci (PULs) when exposed to F. nucleatum or its metabolites. Biofilm formation by F. nucleatum was strongly inhibited by S. oris and its supernatants, indicative of metabolic regulation. Dual and triple RNA-seq revealed that epithelial responses were predominately shaped by F. nucleatum, with enrichment of inflammatory and cancer-associated pathways; however, co-colonization with S. oris modulated the expression of genes linked to the unfolded protein response and apoptosis, among others. These findings demonstrate that glycan-mediated cross-feeding and microbial interactions shape the physiology and pathogenic potential of F. nucleatum in mucosal environments. This work underscores the importance of modeling polymicrobial communities under host-relevant conditions to better understand pathobiont behavior at the epithelial interface.IMPORTANCEFusobacterium nucleatum is increasingly recognized as a pathobiont in mucosal diseases, including colorectal cancers and chronic airway infections, yet its functional interactions with co-colonizing microbiota remain poorly understood. Here, we demonstrate that F. nucleatum engages in bidirectional interactions with Segatella oris, a glycan-foraging anaerobe also enriched in mucin-rich environments. Through nutrient cross-feeding and transcriptional modulation, these interactions shape bacterial behavior and the host epithelial response. Notably, glycan degradation by S. oris enables F. nucleatum access to sialic acids, while F. nucleatum suppresses the expression of multiple polysaccharide utilization loci in S. oris, revealing a reciprocal ecological influence. Co-colonization of the airway epithelial surface also modulates gene expression linked to inflammation and cancer. These findings advance our understanding of polymicrobial dynamics at mucosal interfaces and highlight the importance of incorporating microbe-microbe-host interactions into reductionist models of infection and disease.
Keywords: Fusobacterium nucleatum; Prevotella oris; Segatella oris; chronic airway disease; cross-feeding; glycans; microbiome; transcriptomics.