Importance of amoebae as a tool to isolate amoeba‐resisting microorganisms and for their ecology and evolution: the C hlamydia paradigm

Summary Free‐living amoebae are distributed worldwide and are frequently in contact with humans and animals. As cysts, they can survive in very harsh conditions and resist biocides and most disinfection procedures. Several microorganisms, called amoeba‐resisting microorganisms ( ARMs ), have evolved to survive and multiply within these protozoa. Among them are many important pathogens, such as Legionella and Mycobacteria , and also several newly discovered C hlamydia ‐related bacteria, such as P arachlamydia acanthamoebae , E strella lausannensis , S imkania negevensis or W addlia chondrophila whose pathogenic role towards human or animal is strongly suspected. Amoebae represent an evolutionary crib for their resistant microorganisms since they can exchange genetic material with other ARMs and develop virulence traits that will be further used to infect other professional phagocytes. Moreover, amoebae constitute an ideal tool to isolate strict intracellular microorganisms from complex microbiota, since they will feed on other fast‐growing bacteria, such as coliforms potentially present in the investigated samples. The paradigm that ARMs are likely resistant to macrophages, another phagocytic cell, and that they are likely virulent towards humans and animals is only partially true. Indeed, we provide examples of the C hlamydiales order that challenge this assumption and suggest that the ability to multiply in protozoa does not strictly correlate with pathogenicity and that we should rather use the ability to replicate in multiple and diverse eukaryotic cells as an indirect marker of virulence towards mammals. Thus, cell‐culture‐based microbial culturomics should be used in the future to try to discover new pathogenic bacterial species.