Hydrogen Peroxide Production of Group A Streptococci (GAS) is emm-Type Dependent and Increased at Low Temperatures.

Abstract

Group A streptococcus (GAS) is an important human pathogen whose clinical isolates differ in their ability to produce hydrogen peroxide (H2O2). H2O2 is primarily produced by the enzyme lactate oxidase (LctO), an in depth in silico research revealed that all genome-sequenced GAS possess the required gene lctO. The importance of lctO for GAS is underlined by its highly conserved catabolite control element (cre box) as well as its perfect promotor sequence in comparison to the known consensus sequences of the Gram-positive model organism Bacillus subtilis. In this study, we provide further insight in the function and regulation of lactate oxidase by analyzing a large group of clinical GAS isolates. We found that H2O2 production increased over time in the late stationary phase; after 4days of incubation, 5.4% of the isolates showed a positive result at 37°C, while the rate increased to 16.4% at 20°C. This correlation between H2O2 production and low temperatures suggests additional regulatory mechanisms for lctO besides catabolite control protein A (CcpA) and indicates that lctO might play a role for GAS energy metabolism at sub-body temperatures. Furthermore, we could identify that H2O2 production was different among clinical isolates; we could correlate H2O2 production to emm-types, indicating that emm-types 6 and 75 had the highest rate of H2O2 production. The emm-type- and temperature-dependent H2O2 production of clinical GAS isolates might contribute to their different survival strategies.