Impact of temperature onLegionella pneumophila, its protozoan host cells, and the microbial diversity of the biofilm community of a pilot cooling tower

Abstract

ABSTRACTLegionella pneumophila (Lp)is a waterborne bacterium known for causing Legionnaires’ Disease, a severe pneumonia. Cooling towers are a major source of outbreaks, since they provide ideal conditions forLpgrowth and produce aerosols. In such systems,Lptypically grow inside protozoan hosts. Several abiotic factors such as water temperature, pipe material and disinfection regime affect the colonization of cooling towers byLp.The local physical and biological factors promoting the growth ofLpin water systems and its spatial distribution are not well understood. Therefore, we built a lab-scale cooling tower to study the dynamics ofLpcolonization in relationship to the resident microbiota and spatial distribution. The pilot was filled with water from an operating cooling tower harboring low levels ofLp. It was seeded withVermamoeba vermiformis, a natural host ofLp, and then inoculated withLp.After 92 days of operation, the pilot was disassembled, the water was collected, and biofilm was extracted from the pipes. The microbiome was studied using16S rRNAand18S rRNAgenes amplicon sequencing. The communities of the water and of the biofilm were highly dissimilar. The relative abundance ofLegionellain water samples reached up to 11% whereas abundance in the biofilm was extremely low (≤0.5 %). In contrast, the host cells were mainly present in the biofilm. This suggest thatLpgrows in host cells associated with biofilm and is then released back into the water following host cell lysis. In addition, water temperature shaped the bacterial and eukaryotic community of the biofilm, indicating that different parts of the systems may have different effects onLegionellagrowth.