Pulcherriminic acid modulates iron availability and protects against oxidative stress during microbial interactions

Microbes often produce molecules (termed siderophores) that bind iron and then are taken up using specific receptors for iron acquisition. Here, the authors show that a compound produced by Bacillus subtilis plays a more complex role, by modulating iron availability and conferring protection against oxidative stress during inter-species competition. Siderophores are soluble or membrane-embedded molecules that bind the oxidized form of iron, Fe(III), and play roles in iron acquisition by microorganisms. Fe(III)-bound siderophores bind to specific receptors that allow microbes to acquire iron. However, certain soil microbes release a compound (pulcherriminic acid, PA) that, upon binding to Fe(III), forms a precipitate (pulcherrimin) that apparently functions by reducing iron availability rather than contributing to iron acquisition. Here, we use Bacillus subtilis (PA producer) and Pseudomonas protegens as a competition model to show that PA is involved in a peculiar iron-managing system. The presence of the competitor induces PA production, leading to precipitation of Fe(III) as pulcherrimin, which prevents oxidative stress in B. subtilis by restricting the Fenton reaction and deleterious ROS formation. In addition, B. subtilis uses its known siderophore bacillibactin to retrieve Fe(III) from pulcherrimin. Our findings indicate that PA plays multiple roles by modulating iron availability and conferring protection against oxidative stress during inter-species competition.

Automated summary

This study shows that a compound produced by Bacillus subtilis plays a complex role in modulating iron availability and providing protection against oxidative stress during inter-species competition. This compound binds to iron and restricts its availability rather than promoting iron acquisition. It also reduces reactive oxygen species (ROS) formation and oxidative stress, and Bacillus subtilis utilizes its known siderophore to retrieve iron from the compound.