Maternal diet-induced hypercholanemia alters gut microbiota and metabolome in adult female Western diet-fed offspring
Caroline Ovadia, Saraid McIlvride, Josca M. Schoonejans, Konstantina Spagou, Maria Gómez-Romero, Ann Smith, Georgia Papacleovoulou, Vanya Nikolova, Peter H. Dixon, Elaine Holmes, Julian R. Marchesi, Catherine Williamson

TL;DR
Mothers with high bile acid levels during pregnancy can alter their offspring's gut bacteria and bile acid metabolism, increasing their risk of metabolic disease when exposed to a Western diet.
Contribution
This study shows maternal hypercholanemia alters offspring gut microbiota and bile acid metabolism in response to a Western diet.
Findings
Maternal CA supplementation led to a 387-fold increase in cecal sulfated bile acid species in offspring.
WD-fed offspring of CA-supplemented mothers had a >2-fold reduction in CA and dehydrocholic acid levels.
Maternal diet caused distinct microbiota profiles in WD-fed, but not NC-fed, offspring.
Abstract
Children of mothers with intrahepatic cholestasis of pregnancy (ICP) are more likely to develop metabolic disease later in life. Using a mouse model of gestational cholestasis, we previously found that 18-week-old offspring had metabolic alterations that were exacerbated in female offspring when challenged with a Western diet (WD). Microbiota changes are emerging as a potential mechanism for developmental programming, and the maternal gut microbiota is known to be altered in pregnancy and in ICP. We hypothesized that, in our model, the offspring gut microbiota is altered by maternal gestational disease, potentially impacting future offspring metabolic health. Female mice were fed a cholic acid (CA)-supplemented diet for 1 week preceding and throughout pregnancy to mimic gestational hypercholanemia. Female offspring were challenged with a WD from 12 to 18 weeks of age and cecal contents…
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Taxonomy
TopicsGut microbiota and health · Drug Transport and Resistance Mechanisms · Birth, Development, and Health
