Microbiome manipulation by corals and other Cnidaria via quorum quenching

Benjamin Mason, David C. Hayward, Aurelie Moya, Ira Cooke, Alanna Sorenson, Ramona Brunner, Natalia Andrade, Roger Huerlimann, David G. Bourne, Patrick Schaeffer, Mila Grinblat, Timothy Ravasi, Nobuo Ueda, Sen Lin Tang, Eldon E. Ball*, David J. Miller*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

A dynamic mucous layer containing numerous micro-organisms covers the surface of corals and has multiple functions including both removal of sediment and “food gathering.”1 It is likely to also act as the primary barrier to infection; various proteins and compounds with antimicrobial activity have been identified in coral mucus, though these are thought to be largely or exclusively of microbial origin. As in Hydra,2 anti-microbial peptides (AMPs) are likely to play major roles in regulating the microbiomes of corals.3,4 Some eukaryotes employ a complementary but less obvious approach to manipulate their associated microbiome by interfering with quorum signaling, effectively preventing bacteria from coordinating gene expression across a population. Our investigation of immunity in the reef-building coral Acropora millepora,5 however, led to the discovery of a coral gene referred to here as AmNtNH1 that can inactivate a range of acyl homoserine lactones (AHLs), common bacterial quorum signaling molecules, and is induced on immune challenge of adult corals and expressed during the larval settlement process. Closely related proteins are widely distributed within the Scleractinia (hard corals) and some other cnidarians, with multiple paralogs in Acropora, but their closest relatives are bacterial, implying that these are products of one or more lateral gene transfer events post-dating the cnidarian-bilaterian divergence. The deployment by corals of genes used by bacteria to compete with other bacteria reflects a mechanism of microbiome manipulation previously unknown in Metazoa but that may apply more generally.

Original languageEnglish
Pages (from-to)3226-3232
Number of pages13
JournalCurrent Biology
Volume34
Issue number14
DOIs
Publication statusPublished - 22 Jul 2024

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