Frontiers in Microbiology (Jun 2014)

Defining the diversity of microbial eukaryotic communities in the mammalian gut within the context of environmental eukaryotic diversity

  • Laura Wegener Parfrey,
  • Laura Wegener Parfrey,
  • William Anton Walters,
  • Christian L Lauber,
  • Jose Carlos Clemente,
  • Donna eBerg-Lyons,
  • Julie M Brunelle,
  • tilde eTeiling,
  • Dilip Chinnappa Kodira,
  • Mohammed eMohiuddin,
  • Mohammed eMohiuddin,
  • Mark eDriscoll,
  • Mark eDriscoll,
  • Mark eDriscoll,
  • Noah eFierer,
  • Jack A Gilbert,
  • Rob eKnight,
  • Rob eKnight

DOI
https://doi.org/10.3389/fmicb.2014.00298
Journal volume & issue
Vol. 5

Abstract

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Eukaryotic microbes (protists) residing in the vertebrate gut influence host health and disease, but their diversity and distribution in healthy hosts is poorly understood. Protists found in the gut are typically considered parasites, but many are commensal and some are beneficial. Further, the hygiene hypothesis predicts that association with our co-evolved microbial symbionts may be important to overall health. Therefore, it is imperative that we understand the normal diversity of our eukaryotic gut microbiota to test for such effects and avoid eliminating commensal organisms. We assembled a dataset of healthy individuals from two populations, one with traditional, agrarian lifestyles and a second with modern, westernized lifestyles and characterized the human eukaryotic microbiota via high-throughput sequencing. To place the human gut microbiota within a broader context our dataset also includes gut samples from diverse mammals and samples from other aquatic and terrestrial environments. We curated the SILVA ribosomal database to reflect current knowledge of eukaryotic taxonomy and employ it as a phylogenetic framework to compare eukaryotic diversity across environment. We show that adults from non-western populations harbor a diverse community of protists, and diversity in the human gut is comparable to that in other mammals. However, the eukaryotic microbiota of western populations appears depauperate. The distribution of symbionts found in mammals reflects both host phylogeny and diet. Eukaryotic microbiota in the gut are less diverse and more patchily distributed than bacteria. More broadly, we show that eukaryotic communities in the gut are less diverse than in aquatic and terrestrial habitats, and few taxa are shared across habitat types. Diversity patterns of eukaryotes are correlated with those observed for bacteria. These results outline the distribution and diversity of microbial eukaryotic communities in the mammalian gut and across environments.

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