Peptide Methionine Sulfoxide Reductase from Haemophilus influenzae Is Required for Protection against HOCl and Affects the Host Response to Infection.

Peptide methionine sulfoxide reductases (Msrs) are enzymes that repair ROS-damage to sulfur-containing amino acids such as methionine, ensuring functional integrity of cellular proteins. Here we have shown that unlike the majority of pro- and eukaryotic Msrs, the peptide methionine sulfoxide reductase (MsrAB) from the human pathobiont Haemophilus influenzae (Hi) is required for the repair of hypochlorite damage to cell envelope proteins, but more importantly, we were able to demonstrate that MsrAB plays a role in modulating the host immune response to Hi infection. Loss of MsrAB resulted in >1000-fold increase in sensitivity of Hi to HOCl-mediated killing, and also reduced biofilm formation and in-biofilm survival. Expression of msrAB was also induced by hydrogen peroxide and paraquat, but a Hi2019ΔmsrAB strain was not susceptible to killing by these ROS in vitro. Hi2019ΔmsrAB fitness in infection models was low, with a 3-fold reduction in intracellular survival in bronchial epithelial cells, increased susceptibility to neutrophil killing, and a 10-fold reduction in survival in a mouse model of lung infection. Interestingly, infection with Hi2019ΔmsrAB led to specific changes in the antibacterial response of human host cells, with genes encoding antimicrobial peptides (BPI, CAMP) upregulated between 4 and 9 fold compared to infection with Hi2019WT, and reduction in expression of two proteins with antiapoptotic functions (BIRC3, XIAP). Modulation of host immune responses is a novel role for an enzyme of this type and provides first insights into mechanisms by which MsrAB supports Hi survival in vivo.