Distinct gut flora profile induced by postnatal trans-fat diet in gestationally bisphenol A-exposed rats
Sarah Zulkifli, Noor Shafina Mohd Nor, Siti Hamimah Sheikh Abdul Kadir, Norashikin Mohd Ranai, Khalilah Abdul Khalil

TL;DR
This study shows that a postnatal trans-fat diet in rats previously exposed to bisphenol A during pregnancy significantly alters gut microbiome diversity and function, potentially leading to future metabolic issues.
Contribution
The study reveals how postnatal trans-fat diet, not prenatal BPA exposure, primarily shapes gut microbiome diversity and function in offspring.
Findings
TFD offspring showed significantly lower alpha diversity compared to ND offspring (p<0.001–p<0.05).
Microbiome composition of TFD groups was distinctly different from ND groups, as shown by beta diversity and clustering analyses.
Predictive functional analysis showed altered metabolic pathways in TFD offspring compared to ND groups.
Abstract
There has been much evidence showing the repercussions of prenatal bisphenol A (BPA) exposure with a postnatal high fat-diet (HFD) on offspring’s health. However, the information on how the interaction between these two variables affects the gut microbiome is rather limited. Hence, we investigated the impact of a postnatal trans fat diet (TFD) on the gut microbiome of offspring exposed to BPA during the prenatal period in an animal model. Pregnant rats were divided into 5 mg/kg/day BPA, vehicle Tween80 (P80) or control (CTL) drinking water until delivery (N = 6 per group). Then, weaned male pups were further subdivided into three normal diet (ND) groups (CTLND, P80ND, and BPAND) and three TFD groups (CTLTFD, P80TFD, and BPATFD) (n = 6 per group). 180–250 g of faecal samples were collected on days 50 and 100 to assess the composition of the offspring’s intestinal flora using…
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Taxonomy
TopicsNutritional Studies and Diet · Diet and metabolism studies · Gut microbiota and health
