期刊论文详细信息
Microbiome
Sodium levels and grazing pressure shape natural communities of the intracellular pathogen Legionella
Research
Shira Ninio1  Yaron Be’eri-Shlevin1  Oded Bergman1 
[1] Kinneret Limnological Laboratory (KLL), Israel Oceanographic and Limnological Research (IOLR), P.O. Box 447, 49500, Migdal, Israel;
关键词: Legionella;    Sodium;    Natural springs;    Microbiome;    Saline environment;    Dot/Icm;    Extreme environment;    Intracellular pathogen;    Amoeba-resistant bacteria;   
DOI  :  10.1186/s40168-023-01611-0
 received in 2023-01-29, accepted in 2023-06-30,  发布年份 2023
来源: Springer
PDF
【 摘 要 】

BackgroundLegionella are parasites of freshwater protozoa, responsible for Legionellosis. Legionella can be found in a variety of aquatic environments, including rivers, lakes, and springs, as well as in engineered water systems where they can potentially lead to human disease outbreaks. Legionella are considered to be predominantly freshwater organisms with a limited ability to proliferate in saline environments. Exposure of Legionella to high sodium concentrations inhibits growth and virulence of laboratory strains, particularly under elevated temperatures. Nonetheless, Legionella have been identified in some saline environments where they likely interact with various protozoan hosts. In this work, we examine how these selection pressures, sodium and grazing, help shape Legionella ecology within natural environments. Utilizing Legionella-specific primers targeting a variable region of the Legionella 16S rRNA gene, we characterized Legionella abundance, diversity, and community composition in natural spring clusters of varying sodium concentrations, focusing on high sodium concentrations and elevated temperatures.ResultsWe observed the highest abundance of Legionella in spring clusters of high salinity, particularly in combination with elevated temperatures. Legionella abundance was strongly related to sodium concentrations. The Legionella community structure in saline environments was characterized by relatively low diversity, compared to spring clusters of lower salinity. The community composition in high salinity was characterized by few dominant Legionella genotypes, not related to previously described species. Protozoan microbial community structure and composition patterns resembled those of Legionella, suggesting a common response to similar selection pressures. We examined Legionella co-occurrence with potential protozoan hosts and found associations with Ciliophora and Amoebozoa representatives.ConclusionsOur results indicate that selection forces in saline environments favor a small yet dominant group of Legionella species that are not closely related to known species. These novel environmental genotypes interact with various protozoan hosts, under environmental conditions of high salinity. Our findings suggest that alternative survival mechanisms are utilized by these species, representing mechanisms distinct from those of well-studied laboratory strains. Our study demonstrate how salinity can shape communities of opportunistic pathogens and their hosts, in natural environments, shedding light on evolutionary forces acting within these complex environments.Dch3Ld1J5jASmW1xvkYvDBVideo Abstract

【 授权许可】

CC BY   
© BioMed Central Ltd., part of Springer Nature 2023. corrected publication 2023

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