Cyclic diguanosine monophosphate (c-di-GMP) is a ubiquitous bacterial second messenger that coordinates lifestyle transitions, virulence, and developmental processes. In Clostridioides difficile, elevated c-di-GMP levels inhibit sporulation, but the underlying mechanism remained unclear. Here, we identified a conserved family of small, membrane-associated proteins encoded by c-di-GMP riboswitch-regulated genes. Transcriptomic analyses revealed that c-di-GMP represses these genes, and reporter assays demonstrated riboswitch-dependent transcriptional regulation via premature termination mechanism. Overexpression of a single member, CD1980.2, was sufficient to trigger the transcriptional activation of sporulation genes, including sigma factors and their regulons, and to increase spore formation. Conversely, sporulation efficiency decreased proportionally with the number of deleted small protein genes, and the strain lacking all seven genes displayed a severe sporulation defect, underscoring their cumulative and functionally redundant roles. Elevating c-di-GMP levels in the deletion mutant did not further reduce sporulation, supporting a model in which c-di-GMP inhibits spore formation by repressing the expression of this small-protein family. Our work establishes these small proteins, encoded by c-di-GMP riboswitch-regulated genes, as important mediators of developmental output in C. difficile. Their redundancy, conservation, and integration into riboswitch regulatory pathways highlight their central role in spore formation, a process essential for pathogen persistence and transmission. These findings expand the repertoire of components regulated by second-messenger signaling in bacterial physiology.
Badilla Lobo, A., Waligora-Dupriet, A.-J., Penven, L., Seifert, R., Rodriguez, C., Barbut, F., SOUTOURINA, O., PELTIER, J.
Advertisement
Stats
- Recommendations n/a n/a positive of 0 vote(s)
- Views 5
- Comments 0