The Gene Encoding Ornithine Decarboxylase for Putrescine Biosynthesis Is Essential for the Viability of Fusobacterium nucleatum

Fusobacterium nucleatum is a Gram-negative anaerobe associated with periodontitis and colorectal cancer. It secretes putrescine, a polyamine that promotes biofilm formation by oral co-colonizers and enhances the proliferation of cancer cells. However, the physiological importance of putrescine for F. nucleatum itself remains unclear. Here, we show that putrescine biosynthesis, mediated by the ornithine decarboxylase gene oda, is essential for F. nucleatum viability. Deletion of oda was only possible when a functional copy was provided in trans, and CRISPR interference of oda expression resulted in complete growth arrest. The essentiality of oda was conserved across multiple subspecies. Supplementation with exogenous putrescine enabled the isolation of a conditional oda mutant whose growth was strictly putrescine-dependent. Putrescine depletion caused filamentation, membrane disruption, detergent hypersensitivity, and lysis in hypoosmotic conditions, indicating a critical role in maintaining cell envelope integrity. RNA sequencing revealed broad transcriptional remodeling under putrescine-limited conditions, including upregulation of genes involved in lipid metabolism, osmoprotection, and cell wall remodeling. Notably, oda transcript levels increased when putrescine was depleted, suggesting a negative feedback mechanism. These findings demonstrate that putrescine is not only an extracellular communal metabolite but is also vital for the cellular integrity and survival of F. nucleatum under anaerobic conditions.