The ability of the endospore-forming, gram-positive bacterium Bacillus anthracis to survive in activated macrophages is key to its germination and survival. In a previous publication, we discovered that exposure of primary murine macrophages to B. anthracis endospores upregulated NOS 2 concomitant with an .NO-dependent bactericidal response. Since NOS 2 also generates O(2).(-), experiments were designed to determine whether NOS 2 formed peroxynitrite (ONOO(-)) from the reaction of .NO with O(2).(-) and if so, was ONOO(-) microbicidal toward B. anthracis. Our findings suggest that ONOO(-) was formed upon macrophage infection by B. anthracis endospores; however, ONOO(-) does not appear to exhibit microbicidal activity toward this bacterium. In contrast, the exosporium of B. anthracis, which exhibits arginase activity, protected B. anthracis from macrophage-mediated killing by decreasing .NO levels in the macrophage. Thus, the ability of B. anthracis to subvert .NO production has important implications in the control of B. anthracis-induced infection.