Cyclic di-AMP (c-di-AMP) is a recently identified bacterial second messenger that regulates biological processes. In this study, we found that inactivation of two c-di-AMP phosphodiesterases (PDEs), GdpP and PgpH, resulted in accumulation of 3.8-fold higher c-di-AMP levels than in the parental strain Sterne in Bacillus anthracis and inhibited bacterial growth. Moreover, excess c-di-AMP accumulation decreased bacterial toxin expression, increased sensitivity to osmotic stress and detergent, and attenuated virulence in both C57BL/6J and A/J mice. Complementation of the PDE mutant with a plasmid carrying gdpP or pgpH in trans from a Pspac promoter restored bacterial growth, virulence factor expression, and resistance to detergent. Our results indicate that c-di-AMP is a pleiotropic signaling molecule in B. anthracis that is important for host-pathogen interaction.IMPORTANCE Anthrax is an ancient and deadly disease caused by the spore-forming bacterial pathogen Bacillus anthracis Vegetative cells of this species produce anthrax toxin proteins and S-layer components during infection of mammalian hosts. So far, how the expression of these virulence factors is regulated remains largely unknown. Our results suggest that excess elevated c-di-AMP levels inhibit bacterial growth and reduce expression of S-layer components and anthracis toxins as well as reduce virulence in a mouse model of disease. These results indicate that c-di-AMP signaling plays crucial roles in B. anthracis biology and disease.
Keywords: Bacillus anthracis; cyclic di-AMP; surface-layer protein; virulence factors.
Copyright © 2020 American Society for Microbiology.