Staphylococcal DNA Repair Is Required for Infection
Kam Pou Ha, Rebecca S. Clarke, Gyu Lee Kim, Jane L. Brittan, Jessica E. Rowley, Despoina A. I. Mavridou, Dane Parker, Thomas B. Clarke, Angela H. Nobbs, Andrew M. Edwards
Abstract
To cause infection, bacteria must survive attack by the host immune system. For many bacteria, including the major human pathogen Staphylococcus aureus , the greatest threat is posed by neutrophils. These immune cells ingest the invading organisms and try to kill them with a cocktail of chemicals that includes reactive oxygen species (ROS). The ability of S. aureus to survive this attack is crucial for the progression of infection. However, it was not clear how the ROS damaged S. aureus and how the bacterium repaired this damage. In this work, we show that ROS cause breaks in the staphylococcal DNA, which must be repaired by a two-protein complex known as RexAB; otherwise, the bacterium is killed, and it cannot sustain infection. This provides information on the type of damage that neutrophils cause S. aureus and the mechanism by which this damage is repaired, enabling infection.