Functional metagenomics reveals novel salt tolerance loci from the human gut microbiome

Culligan, Eamonn P.; Sleator, Roy D.; Marchesi, Julian R.; Hill, Colin

doi:10.1038/ismej.2012.38

Cited by 54 publications

(55 citation statements)

References 75 publications

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“…It is known that different bacterial species, including symbionts of the human microbiome have different tolerance to NaCl (Culligan et al, 2012). Thus, it is likely that addition of NaCl to transport water favors the growth of certain bacterial groups whereas limits the growth of others.…”

Section: Discussionmentioning

confidence: 99%

Effects of transportation stress and addition of salt to transport water on the skin mucosal homeostasis of rainbow trout (Oncorhynchus mykiss)

Tacchi¹,

Lowrey²,

Musharrafieh³

et al. 2015

Aquaculture

110

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Transportation of live fish is a common practice among aquaculture facilities. Many studies have previously reported how transport elicits physiological stress responses and increases disease susceptibility in farmed fish. The aim of this work is to investigate the changes that the skin of rainbow trout (Oncorhynchus mykiss) experiences due to stress. Since NaCl is commonly added to transport water as a stress mitigator, the effects of salt addition on the skin mucosa and skin-associated bacteria were also examined. Three experimental groups (Control, post-transport no salt (PTNS) and post-transport with salt (PTS)) were analyzed in a 5-hour transport acute stress model. Results indicate that the skin mucosa and the skin-associated bacteria are affected by transport stress. Total numbers of culturable skin-associated bacteria increased by ~10-fold and ~50-fold in the PTS and PTNS groups, respectively. Compared to controls, MUC2 expression was increased by 5-fold and 2-fold in the PTNS and PTS groups, respectively. Claudin-7, 8d and 12 expression levels were higher in both PTNS and PTS groups whereas antimicrobial peptide gene expression was lower than controls. Expression of the anti-inflammatory cytokine TGF-β but not IL-1β, IL-6 and TNF-α was up-regulated 2-3 fold in both the PTS and PTNS groups. The addition of salt diminished some of the physiological responses measured including the numbers of skin-associated bacteria. The responses recorded here appeared to be efficient at controlling bacterial translocation since stress did not lead to significant presence of bacteria in the liver or spleen of rainbow trout. When examining the ability of skin mucus to inhibit or promote growth of the bacterial pathogen Vibrio anguillarum, the skin mucus of PTS trout was more efficient at inhibiting V. anguillarum growth (20% inhibition) compared to control or PTNS mucus (11-12% inhibition). Our data clearly indicate the skin and skin microbiota of rainbow trout undergo important physiological responses during stress. The reduction in the magnitude of the skin responses recorded when salt was added to the transport water explains a new mechanism by which salt is an effective stress mitigator in some fish species. Aquaculture specialists will benefit from the present study by taking into consideration the importance of skin health during live transport.

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Section: Discussionmentioning

confidence: 99%

Effects of transportation stress and addition of salt to transport water on the skin mucosal homeostasis of rainbow trout (Oncorhynchus mykiss)

Tacchi¹,

Lowrey²,

Musharrafieh³

et al. 2015

Aquaculture

110

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“…In addition, it couples each observed phenotype to a single fragment of cloned metagenomic DNA, making it possible to simultaneously identify specific effector molecules and the specific effector genes that encode these molecules. Functional metagenomics has been used to isolate small molecules and proteins from soil metagenomes (15)(16)(17)(18)(19)(20)(21)(22)(23)(24); however, its application to the human microbiome has to date been very limited (16,25,26). In this study, a set of arrayed, large-insert cosmid libraries hosted in Escherichia coli was created from DNA isolated from the stool of three patients who, based on their phenotype, were predicted to have different commensal bacteria cohorts.…”

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confidence: 99%

Functional metagenomic discovery of bacterial effectors in the human microbiome and isolation of commendamide, a GPCR G2A/132 agonist

Cohen

Kang

Chu

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

148

151

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The trillions of bacteria that make up the human microbiome are believed to encode functions that are important to human health; however, little is known about the specific effectors that commensal bacteria use to interact with the human host. Functional metagenomics provides a systematic means of surveying commensal DNA for genes that encode effector functions. Here, we examine 3,000 Mb of metagenomic DNA cloned from three phenotypically distinct patients for effectors that activate NF-κB, a transcription factor known to play a central role in mediating responses to environmental stimuli. This screen led to the identification of 26 unique commensal bacteria effector genes (Cbegs) that are predicted to encode proteins with diverse catabolic, anabolic, and ligand-binding functions and most frequently interact with either glycans or lipids. Detailed analysis of one effector gene family (Cbeg12) recovered from all three patient libraries found that it encodes for the production of N-acyl-3-hydroxypalmitoyl-glycine (commendamide). This metabolite was also found in culture broth from the commensal bacterium Bacteroides vulgatus, which harbors a gene highly similar to Cbeg12. Commendamide resembles long-chain N-acyl-amides that function as mammalian signaling molecules through activation of G-protein–coupled receptors (GPCRs), which led us to the observation that commendamide activates the GPCR G2A/GPR132. G2A has been implicated in disease models of autoimmunity and atherosclerosis. This study shows the utility of functional metagenomics for identifying potential mechanisms used by commensal bacteria for host interactions and outlines a functional metagenomics-based pipeline for the systematic identification of diverse commensal bacteria effectors that impact host cellular functions.

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“…Hemme et al 2010) and specific phenotypes can be discovered 30 through functional metagenomics, where random sequence fragments isolated from a 8 community sample are cloned into a vector, allowing host bacteria to be screened for specific traits encoded by these sequences (e.g. Culligan et al 2012). These correlation patterns are important to establish, but causation can be more directly addressed through controlled manipulation of the environment, such as the artificial warming of soil (Rousk et al 2012).…”

Section: Culture-independent Methodsmentioning

confidence: 99%

Adaptation in Natural Microbial Populations

Koskella

Vos

2015

Annu. Rev. Ecol. Evol. Syst.

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Although their diversity greatly exceeds that of plants and animals, microbial organisms have historically received less attention in ecology and evolutionary biology research. This knowledge gap is rapidly closing, owing to recent technological advances and an increasing appreciation for the role microbes play in shaping ecosystems and human health. In this review, we examine when and how the process and patterns of bacterial adaptation might fundamentally differ from those of macrobes, highlight methods used to measure adaptation in natural microbial populations, and discuss the importance of examining bacterial adaptation across multiple scales. We emphasize the need to consider the scales of adaptation as continua, in which the genetic makeup of bacteria blur boundaries between populations, species, and communities and with them concepts of ecological and evolutionary time. Finally, we examine current directions of the field as we move beyond the stamp-collecting phase and toward a better understanding of microbial adaptation in nature.

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Functional metagenomics reveals novel salt tolerance loci from the human gut microbiome

Cited by 54 publications

References 75 publications

Effects of transportation stress and addition of salt to transport water on the skin mucosal homeostasis of rainbow trout (Oncorhynchus mykiss)

Effects of transportation stress and addition of salt to transport water on the skin mucosal homeostasis of rainbow trout (Oncorhynchus mykiss)

Functional metagenomic discovery of bacterial effectors in the human microbiome and isolation of commendamide, a GPCR G2A/132 agonist

Adaptation in Natural Microbial Populations

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