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  • Dysbiosis-Induced Secondary Bile Acid Deficiency Promotes Intestinal Inflammation.

Dysbiosis-Induced Secondary Bile Acid Deficiency Promotes Intestinal Inflammation.

Cell host & microbe (2020-02-27)
Sidhartha R Sinha, Yeneneh Haileselassie, Linh P Nguyen, Carolina Tropini, Min Wang, Laren S Becker, Davis Sim, Karolin Jarr, Estelle T Spear, Gulshan Singh, Hong Namkoong, Kyle Bittinger, Michael A Fischbach, Justin L Sonnenburg, Aida Habtezion
ABSTRACT

Secondary bile acids (SBAs) are derived from primary bile acids (PBAs) in a process reliant on biosynthetic capabilities possessed by few microbes. To evaluate the role of BAs in intestinal inflammation, we performed metabolomic, microbiome, metagenomic, and transcriptomic profiling of stool from ileal pouches (surgically created resevoirs) in colectomy-treated patients with ulcerative colitis (UC) versus controls (familial adenomatous polyposis [FAP]). We show that relative to FAP, UC pouches have reduced levels of lithocholic acid and deoxycholic acid (normally the most abundant gut SBAs), genes required to convert PBAs to SBAs, and Ruminococcaceae (one of few taxa known to include SBA-producing bacteria). In three murine colitis models, SBA supplementation reduces intestinal inflammation. This anti-inflammatory effect is in part dependent on the TGR5 bile acid receptor. These data suggest that dysbiosis induces SBA deficiency in inflammatory-prone UC patients, which promotes a pro-inflammatory state within the intestine that may be treated by SBA restoration.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Chenodeoxycholic acid-2,2,4,4-d4, 98 atom % D, 98% (CP)
Sigma-Aldrich
Collagenase from Clostridium histolyticum, suitable for release of physiologically active rat hepatocytes, Type IV, 0.5-5.0 FALGPA units/mg solid, ≥125 CDU/mg solid
Sigma-Aldrich
Lithocholic acid, ≥95%