Abstract
In large-building water systems, Legionella pneumophila is exposed to common environmental stressors such as copper. The aim of this study was to evaluate the susceptibility to copper of L. pneumophila isolates recovered from various sites: two clinical and seven environmental from hot water systems biofilm & water, and from cooling tower water. After one-week acclimation in simulated drinking water, strains were exposed to various copper concentrations (0.8 to 5 mg/L) for over 672 hours. Complete loss of culturability was observed for three isolates, following copper exposure to 5 mg/L for 672h. Two ST1427-like isolates were highly sensitive to copper, while the other two, isolated from biofilm samples, were resistant. The expression of the copper resistance gene copA evaluated by RT-qPCR was significantly higher for the biofilm isolates. All four ST1427-like isolates were recovered from the same water system during an outbreak. Whole genome sequencing results confirmed that the four isolates are very close phylogenetically, differing by only 29 single nucleotide polymorphisms, suggesting in situ adaptation to microenvironmental conditions, possibly due to epigenetic regulation. These results indicate that the immediate environment within a building water distribution system influences the tolerance of L. pneumophila to copper. Increased contact of L. pneumophila biofilm strains with copper piping or copper alloys in the heat exchanger might lead to local adaptation. The phenotypic differences observed between water and biofilm isolates from the hot water system of a healthcare facility warrants further investigation to assess the relevance of evaluating disinfection performances based on water sampling alone.
Importance Legionella pneumophila is a pathogen indigenous to natural and large building water systems in the bulk and the biofilm phases. The immediate environment within a system can impact the tolerance of L. pneumophila to environmental stressors, including copper. In healthcare facilities, copper levels in water can vary, depending on water quality, plumbing materials and age. This study evaluated the impact of the isolation site (water vs biofilm, hot water system vs cooling tower) within building water systems. Closely related strains isolated from a healthcare facility hot water system exhibited variable tolerance to copper stress shown by differential expression of copA, with biofilm isolates displaying highest expression and tolerance. Relying on the detection of L. pneumophila in water samples following exposure to environmental stressor such as copper may underestimate the prevalence of L. pneumophila, leading to inappropriate risk management strategies and increasing the risk of exposure for vulnerable patients.