Bile salt hydrolases shape the bile acid landscape and restrict Clostridioides difficile growth in the murine gut

Bile acids (BAs) mediate the crosstalk between human and microbial cells and influence diseases including Clostridioides difficile infection (CDI). While bile salt hydrolases (BSHs) shape the BA pool by deconjugating conjugated BAs, the basis for their substrate selectivity and impact on C. difficil...

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Veröffentlicht in:	Nature microbiology 2023-04, Vol.8 (4), p.611-628
Hauptverfasser:	Foley, Matthew H., Walker, Morgan E., Stewart, Allison K., O’Flaherty, Sarah, Gentry, Emily C., Patel, Shakshi, Beaty, Violet V., Allen, Garrison, Pan, Meichen, Simpson, Joshua B., Perkins, Caroline, Vanhoy, Molly E., Dougherty, Michael K., McGill, Sarah K., Gulati, Ajay S., Dorrestein, Pieter C., Baker, Erin S., Redinbo, Matthew R., Barrangou, Rodolphe, Theriot, Casey M.
Format:	Artikel
Sprache:	eng
Schlagworte:	59 631/326/421 631/45/320 631/45/607/1164 82 82/58 82/80 82/83 Acids Amidohydrolases Animals Bile Bile acids Bile Acids and Salts Bile salts Biomedical and Life Sciences Clostridioides Clostridioides difficile Clostridium Infections Colonization Commensals Humans Infectious Diseases Intestinal microflora Life Sciences Medical Microbiology Mice Microbiology Microbiomes Parasitology Probiotics Spore germination Taurine Virology Virulence
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container_title	Nature microbiology
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creator	Foley, Matthew H. Walker, Morgan E. Stewart, Allison K. O’Flaherty, Sarah Gentry, Emily C. Patel, Shakshi Beaty, Violet V. Allen, Garrison Pan, Meichen Simpson, Joshua B. Perkins, Caroline Vanhoy, Molly E. Dougherty, Michael K. McGill, Sarah K. Gulati, Ajay S. Dorrestein, Pieter C. Baker, Erin S. Redinbo, Matthew R. Barrangou, Rodolphe Theriot, Casey M.
description	Bile acids (BAs) mediate the crosstalk between human and microbial cells and influence diseases including Clostridioides difficile infection (CDI). While bile salt hydrolases (BSHs) shape the BA pool by deconjugating conjugated BAs, the basis for their substrate selectivity and impact on C. difficile remain elusive. Here we survey the diversity of BSHs in the gut commensals Lactobacillaceae, which are commonly used as probiotics, and other members of the human gut microbiome. We structurally pinpoint a loop that predicts BSH preferences for either glycine or taurine substrates. BSHs with varying specificities were shown to restrict C. difficile spore germination and growth in vitro and colonization in pre-clinical in vivo models of CDI. Furthermore, BSHs reshape the pool of microbial conjugated bile acids (MCBAs) in the murine gut, and these MCBAs can further restrict C. difficile virulence in vitro. The recognition of conjugated BAs by BSHs defines the resulting BA pool, including the expansive MCBAs. This work provides insights into the structural basis of BSH mechanisms that shape the BA landscape and promote colonization resistance against C. difficile . Bile salt hydrolases encoded by the gut microbiome shape the bile acid pool, including microbial conjugated bile acids, which impact Clostridioides difficile infection in the murine gut.
doi_str_mv	10.1038/s41564-023-01337-7
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While bile salt hydrolases (BSHs) shape the BA pool by deconjugating conjugated BAs, the basis for their substrate selectivity and impact on C. difficile remain elusive. Here we survey the diversity of BSHs in the gut commensals Lactobacillaceae, which are commonly used as probiotics, and other members of the human gut microbiome. We structurally pinpoint a loop that predicts BSH preferences for either glycine or taurine substrates. BSHs with varying specificities were shown to restrict C. difficile spore germination and growth in vitro and colonization in pre-clinical in vivo models of CDI. Furthermore, BSHs reshape the pool of microbial conjugated bile acids (MCBAs) in the murine gut, and these MCBAs can further restrict C. difficile virulence in vitro. The recognition of conjugated BAs by BSHs defines the resulting BA pool, including the expansive MCBAs. This work provides insights into the structural basis of BSH mechanisms that shape the BA landscape and promote colonization resistance against C. difficile . 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While bile salt hydrolases (BSHs) shape the BA pool by deconjugating conjugated BAs, the basis for their substrate selectivity and impact on C. difficile remain elusive. Here we survey the diversity of BSHs in the gut commensals Lactobacillaceae, which are commonly used as probiotics, and other members of the human gut microbiome. We structurally pinpoint a loop that predicts BSH preferences for either glycine or taurine substrates. BSHs with varying specificities were shown to restrict C. difficile spore germination and growth in vitro and colonization in pre-clinical in vivo models of CDI. Furthermore, BSHs reshape the pool of microbial conjugated bile acids (MCBAs) in the murine gut, and these MCBAs can further restrict C. difficile virulence in vitro. The recognition of conjugated BAs by BSHs defines the resulting BA pool, including the expansive MCBAs. This work provides insights into the structural basis of BSH mechanisms that shape the BA landscape and promote colonization resistance against C. difficile . Bile salt hydrolases encoded by the gut microbiome shape the bile acid pool, including microbial conjugated bile acids, which impact Clostridioides difficile infection in the murine gut.</description><subject>59</subject><subject>631/326/421</subject><subject>631/45/320</subject><subject>631/45/607/1164</subject><subject>82</subject><subject>82/58</subject><subject>82/80</subject><subject>82/83</subject><subject>Acids</subject><subject>Amidohydrolases</subject><subject>Animals</subject><subject>Bile</subject><subject>Bile acids</subject><subject>Bile Acids and Salts</subject><subject>Bile salts</subject><subject>Biomedical and Life Sciences</subject><subject>Clostridioides</subject><subject>Clostridioides difficile</subject><subject>Clostridium Infections</subject><subject>Colonization</subject><subject>Commensals</subject><subject>Humans</subject><subject>Infectious Diseases</subject><subject>Intestinal microflora</subject><subject>Life Sciences</subject><subject>Medical Microbiology</subject><subject>Mice</subject><subject>Microbiology</subject><subject>Microbiomes</subject><subject>Parasitology</subject><subject>Probiotics</subject><subject>Spore 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salt hydrolases shape the bile acid landscape and restrict Clostridioides difficile growth in the murine gut</title><author>Foley, Matthew H. ; Walker, Morgan E. ; Stewart, Allison K. ; O’Flaherty, Sarah ; Gentry, Emily C. ; Patel, Shakshi ; Beaty, Violet V. ; Allen, Garrison ; Pan, Meichen ; Simpson, Joshua B. ; Perkins, Caroline ; Vanhoy, Molly E. ; Dougherty, Michael K. ; McGill, Sarah K. ; Gulati, Ajay S. ; Dorrestein, Pieter C. ; Baker, Erin S. ; Redinbo, Matthew R. ; Barrangou, Rodolphe ; Theriot, Casey 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Meichen</au><au>Simpson, Joshua B.</au><au>Perkins, Caroline</au><au>Vanhoy, Molly E.</au><au>Dougherty, Michael K.</au><au>McGill, Sarah K.</au><au>Gulati, Ajay S.</au><au>Dorrestein, Pieter C.</au><au>Baker, Erin S.</au><au>Redinbo, Matthew R.</au><au>Barrangou, Rodolphe</au><au>Theriot, Casey M.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Bile salt hydrolases shape the bile acid landscape and restrict Clostridioides difficile growth in the murine gut</atitle><jtitle>Nature microbiology</jtitle><stitle>Nat Microbiol</stitle><addtitle>Nat Microbiol</addtitle><date>2023-04-01</date><risdate>2023</risdate><volume>8</volume><issue>4</issue><spage>611</spage><epage>628</epage><pages>611-628</pages><issn>2058-5276</issn><eissn>2058-5276</eissn><abstract>Bile acids (BAs) mediate the crosstalk between human and microbial cells and influence diseases including Clostridioides difficile infection (CDI). While bile salt hydrolases (BSHs) shape the BA pool by deconjugating conjugated BAs, the basis for their substrate selectivity and impact on C. difficile remain elusive. Here we survey the diversity of BSHs in the gut commensals Lactobacillaceae, which are commonly used as probiotics, and other members of the human gut microbiome. We structurally pinpoint a loop that predicts BSH preferences for either glycine or taurine substrates. BSHs with varying specificities were shown to restrict C. difficile spore germination and growth in vitro and colonization in pre-clinical in vivo models of CDI. Furthermore, BSHs reshape the pool of microbial conjugated bile acids (MCBAs) in the murine gut, and these MCBAs can further restrict C. difficile virulence in vitro. The recognition of conjugated BAs by BSHs defines the resulting BA pool, including the expansive MCBAs. This work provides insights into the structural basis of BSH mechanisms that shape the BA landscape and promote colonization resistance against C. difficile . 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subjects	59 631/326/421 631/45/320 631/45/607/1164 82 82/58 82/80 82/83 Acids Amidohydrolases Animals Bile Bile acids Bile Acids and Salts Bile salts Biomedical and Life Sciences Clostridioides Clostridioides difficile Clostridium Infections Colonization Commensals Humans Infectious Diseases Intestinal microflora Life Sciences Medical Microbiology Mice Microbiology Microbiomes Parasitology Probiotics Spore germination Taurine Virology Virulence
title	Bile salt hydrolases shape the bile acid landscape and restrict Clostridioides difficile growth in the murine gut
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