Abstract
SummaryAir pollution is the world's largest single environmental health risk (WHO). Particulate matter such as black carbon is one of the main components of air pollution. The effects of particulate matter on human health are well established however the effects on bacteria, organisms central to ecosystems in humans and in the natural environment, are poorly understood. We report here for the first time that black carbon drastically changes the development of bacterial biofilms, key aspects of bacterial colonisation and survival. Our data show that exposure to black carbon induces structural, compositional and functional changes in the biofilms of both S. pneumoniae and S. aureus. Importantly, the tolerance of the biofilms to multiple antibiotics and proteolytic degradation is significantly affected. Additionally, our results show that black carbon impacts bacterial colonisation in vivo. In a mouse nasopharyngeal colonisation model, black carbon caused S. pneumoniae to spread from the nasopharynx to the lungs, which is essential for subsequent infection. Therefore our study highlights that air pollution has a significant effect on bacteria that has been largely overlooked. Consequently these findings have important implications concerning the impact of air pollution on human health and bacterial ecosystems worldwide.
Highlights
To address whether bacteria are an unexplained mechanism for black carbon (BC) induced morbidity, we investigated the impact of BC on two model bacterial species; Streptococcus pneumoniae and Staphylococcus aureus
We report here that BC significantly affects the behavior of S. pneumoniae and S. aureus
Encapsulated S. pneumoniae form poor biofilms in vitro investigations using advanced imaging could only be completed with the closely-related non-capsulated isolate
Summary
Particulate matter (PM), a major component of air pollution (Kelly and Fussell, 2011; Kelly and Fussell, 2012), has a detrimental impact on both human and environmental health (Janssen et al, 2012; Kelly and Fussell, 2012; Thurston and Lippmann, 2015; Xu et al, 2016). Current WHO guidelines set limits for both the 24-hour and annual mean concentrations of different size fractions of PM. Stricter limits are set for PM2.5 as this size fraction is associated with more damaging health effects, and should be kept below an annual mean of 10 mg/m3, and 25 mg/m3 over a 24 hour period. Air pollution is responsible for an eighth of all global deaths per year (WHO, 2014)
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