Group A Streptococcal M1 Protein Provides Resistance against the Antimicrobial Activity of Histones

Histones are essential elements of chromatin structure and gene regulation in eukaryotes. An unexpected attribute of these nuclear proteins is their antimicrobial activity. A framework for histone release and function in host defense in vivo was revealed with the discovery of neutrophil extracellular traps, a specialized cell death process in which DNA-based structures containing histones are extruded to ensnare and kill bacteria. Investigating the susceptibility of various Gram-positive pathogens to histones, we found high-level resistance by one leading human pathogen, group A Streptococcus (GAS). A screen of isogenic mutants revealed that the highly surface-expressed M1 protein, a classical GAS virulence factor, was required for high-level histone resistance. Biochemical and microscopic analyses revealed that the N-terminal domain of M1 protein binds and inactivates histones before they reach their cell wall target of action. This finding illustrates a new pathogenic function for this classic GAS virulence factor, and highlights a potential innate immune evasion strategy that may be employed by other bacterial pathogens.