Lactiplantibacillus plantarum H-87 prevents high-fat diet-induced obesity by regulating bile acid metabolism in C57BL/6J mice

We recently reported that compared to males, female mice have increased hepatic mitochondrial respiratory capacity and are protected against high-fat diet-induced steatosis. Here we sought to determine the role of estrogen in hepatic mitochondrial function, steatosis, and bile acid metabolism in female mice, as well as investigate potential benefits of exercise in the absence or presence of estrogen via ovariectomy (OVX). Female C57BL mice (n=6 per group) were randomly assigned to sham surgery (Sham), ovariectomy (OVX), or OVX plus estradiol replacement therapy (OVX+Est). Half of the mice in each treatment group were sedentary (SED) or had access to voluntary wheel running (VWR). All mice were fed a high-fat diet (HFD) and were housed at thermoneutral temperatures. We assessed isolated hepatic mitochondrial respiratory capacity using the Oroboros O2k with both pyruvate and palmitoylcarnitine as substrates. As expected, OVX mice presented with greater hepatic steatosis, weight gain, and fat mass gain compared to Sham and OVX+Est animals. Hepatic mitochondrial coupling (Basal/State 3 respiration) with pyruvate was impaired following OVX, but both VWR and estradiol treatment rescued coupling to levels greater than or equal to Sham animals. Estradiol and exercise also had different effects on liver electron transport chain protein expression depending on OVX status. Markers of bile acid metabolism and excretion were also impaired by ovariectomy but rescued with estradiol add-back. Together our data suggest that estrogen depletion impairs hepatic mitochondrial function and liver health, and that estradiol replacement and modest exercise can aid in rescuing this phenotype.

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Gender-divergent expression of lipid and bile acid metabolism-related genes in adult mice offspring of dams fed a high-fat diet

Journal of Biosciences ◽

10.1007/s12038-018-9750-9 ◽

2018 ◽

Vol 43 (2) ◽

pp. 329-337 ◽

Cited By ~ 6

Author(s):

Yuji Tanaka ◽

Takanori Ikeda ◽

Kazuo Yamamoto ◽

Shiori Masuda ◽

Hiroshi Ogawa ◽

...

Keyword(s):

Bile Acid ◽

High Fat Diet ◽

Acid Metabolism ◽

Bile Acid Metabolism ◽

High Fat ◽

Adult Mice

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A sulfated polysaccharide from Gracilaria Lemaneiformis regulates cholesterol and bile acid metabolism in high-fat diet mice

Food & Function ◽

10.1039/c9fo00263d ◽

2019 ◽

Vol 10 (6) ◽

pp. 3224-3236 ◽

Cited By ~ 14

Author(s):

Shiming Huang ◽

Daorui Pang ◽

Xiong Li ◽

Lijun You ◽

Zhengang Zhao ◽

...

Keyword(s):

Lipid Metabolism ◽

Bile Acid ◽

High Fat Diet ◽

Acid Metabolism ◽

Sulfated Polysaccharide ◽

Gracilaria Lemaneiformis ◽

Bile Acid Metabolism ◽

High Fat

This study aimed to evaluate the regulation of lipid metabolism and mechanism of a sulfated polysaccharide from Gracilaria Lemaneiformis (GLP).

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Alteration of Bile Acid Metabolism by a High-Fat Diet Is Associated with Plasma Transaminase Activities and Glucose Intolerance in Rats

Journal of Nutritional Science and Vitaminology ◽

10.3177/jnsv.65.45 ◽

2019 ◽

Vol 65 (1) ◽

pp. 45-51 ◽

Cited By ~ 3

Author(s):

Reika YOSHITSUGU ◽

Keidai KIKUCHI ◽

Hitoshi IWAYA ◽

Nobuyuki FUJII ◽

Shota HORI ◽

...

Keyword(s):

Bile Acid ◽

Glucose Intolerance ◽

High Fat Diet ◽

Acid Metabolism ◽

Bile Acid Metabolism ◽

High Fat

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Bile acid metabolism is altered in multiple sclerosis and supplementation ameliorates neuroinflammation

10.1101/627356 ◽

2019 ◽

Author(s):

Pavan Bhargava ◽

Leah Mische ◽

Matthew D. Smith ◽

Emily Harrington ◽

Kathryn C Fitzgerald ◽

...

Keyword(s):

Multiple Sclerosis ◽

Bile Acid ◽

Bile Acids ◽

Acid Metabolism ◽

White Matter Lesions ◽

The Body ◽

Bile Acid Metabolism ◽

Dependent Manner ◽

Microglial Polarization

AbstractMultiple sclerosis (MS) is an inflammatory demyelinating disorder of the CNS. Bile acids are cholesterol metabolites that can signal through receptors on cells throughout the body, including the CNS and immune system. Whether bile acid metabolism is abnormal in MS is unknown. Using global and targeted metabolomic profiling, we identified lower levels of circulating bile acid metabolites in multiple cohorts of adult and pediatric MS patients compared to controls. In white matter lesions from MS brain tissue, we noted the presence of bile acid receptors on immune and glial cells. To mechanistically examine the implications of lower levels of bile acids in MS, we studied the in vitro effects of an endogenous bile acid – tauroursodeoxycholic acid (TUDCA) on astrocyte and microglial polarization. TUDCA prevented neurotoxic (A1) polarization of astrocytes and pro-inflammatory polarization of microglia in a dose-dependent manner. TUDCA supplementation in experimental autoimmune encephalomyelitis reduced severity of disease, based on behavioral and pathological measures. We demonstrate that bile acid metabolism is altered in MS; bile acid supplementation prevents polarization of astrocytes and microglia to neurotoxic phenotypes and ameliorates neuropathology in an animal model of MS. These findings identify dysregulated bile acid metabolism as a potential therapeutic target in MS.

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Combination of soya pulp andBacillus coagulanslilac-01 improves intestinal bile acid metabolism without impairing the effects of prebiotics in rats fed a cholic acid-supplemented diet

British Journal Of Nutrition ◽

10.1017/s0007114516002270 ◽

2016 ◽

Vol 116 (4) ◽

pp. 603-610 ◽

Cited By ~ 11

Author(s):

Yeonmi Lee ◽

Reika Yoshitsugu ◽

Keidai Kikuchi ◽

Ga-Hyun Joe ◽

Misaki Tsuji ◽

...

Keyword(s):

Bile Acid ◽

Cholic Acid ◽

High Fat Diet ◽

Intestinal Bacteria ◽

Bacillus Coagulans ◽

Bile Acid Metabolism ◽

Beneficial Effects ◽

Diet Induced Obesity ◽

Bactericidal Effects ◽

Host Health

AbstractIntestinal bacteria are involved in bile acid (BA) deconjugation and/or dehydroxylation and are responsible for the production of secondary BA. However, an increase in the production of secondary BA modulates the intestinal microbiota due to the bactericidal effects and promotes cancer risk in the liver and colon. The ingestion ofBacillus coagulansimproves constipation via the activation of bowel movement to promote defaecation in humans, which may alter BA metabolism in the intestinal contents. BA secretion is promoted with high-fat diet consumption, and the ratio of cholic acid (CA):chenodeoxycholic acid in primary BA increases with ageing. The dietary supplementation of CA mimics the BA environment in diet-induced obesity and ageing. We investigated whetherB. coagulanslilac-01 and soya pulp influence both BA metabolism and the maintenance of host health in CA-supplemented diet-fed rats. In CA-fed rats, soya pulp significantly increased the production of secondary BA such as deoxycholic acid andω-muricholic acids, and soya pulp ingestion alleviated problems related to plasma adiponectin and gut permeability in rats fed the CA diet. The combination ofB. coagulansand soya pulp successfully suppressed the increased production of secondary BA in CA-fed rats compared with soya pulp itself, without impairing the beneficial effects of soya pulp ingestion. In conclusion, it is possible that a combination of prebiotics and probiotics can be used to avoid an unnecessary increase in the production of secondary BA in the large intestine without impairing the beneficial functions of prebiotics.

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A9 BACTERIAL BILE SALT HYDROLASE GENE ABUNDANCE IS ASSOCIATED WITH RORC GENE EXPRESSION IN INTESTINAL MUCOSA OF INFLAMMATORY DISEASE PATIENTS

Journal of the Canadian Association of Gastroenterology ◽

10.1093/jcag/gwz047.008 ◽

2020 ◽

Vol 3 (Supplement_1) ◽

pp. 11-12

Author(s):

C Hernandez-Rocha ◽

K Borowski ◽

W Turpin ◽

M Smith ◽

J Stempak ◽

...

Keyword(s):

Gene Expression ◽

Bile Acid ◽

Bile Acids ◽

Acid Metabolism ◽

Bile Acid Metabolism ◽

Bile Salt Hydrolase ◽

Host Gene Expression ◽

Biopsy Site ◽

Endoscopic Score

Abstract Background The role of gut microbes involved in bile acid metabolism and their impact on mucosal immune regulation is beginning to be appreciated. For instance, changes in microbial bile salt hydrolase (BSH) activity which deconjugates bile acids in the gastrointestinal tract of gnotobiotic mice, significantly alters gene expression patterns of immune-related genes in ileum. Moreover, bile acid dysmetabolism may participate in the chronic inflammation loop of Inflammatory bowel disease (IBD). Aims We carried out an integrated mucosal microbiome-transcriptome analysis to elucidate associations between microbial bile-acid metabolizing function and host gene expression. Methods Crohn’s disease (CD), ulcerative colitis (UC) and IBD unclassified (IBDU) patients were recruited prior to scheduled colonoscopy performed as part of clinical care. Only patients with non-inflamed mucosa defined as a segmental simple endoscopic score 0–2 in CD and a segmental Mayo endoscopic score of 0 in UC/IBDU were included in this analysis to minimize the effect of inflammation on gene expression. Biopsy samples were obtained from terminal ileum, ascending colon and sigmoid colon, and microbial DNA and human RNA was extracted. V4 region of 16S rRNA gene was sequenced and the relative abundance of bile acid-metabolizing genes was inferred using PICRUSt. RNA-seq was used to sequence total human RNA and a supervised transcript reduction analysis focus upon 65 genes previously associated with bile acid metabolism and IBD was utilized. Associations between microbiome clusters of orthologous groups (COGs), transcriptome, diagnosis (CD vs UC/IBDU), and biopsy site were analyzed using linear mixed-effects model with lmer4 function in R. An adjusted-p value after false discovery rate correction < 0.05 was considered significant. Results A total of 126 samples from 86 subjects were analyzed corresponding to 35 CD and 51 UC/IBDU. Mean age for the total cohort was 34.7 ± 11 years and 35 (40.6%) were females. There was a significant negative correlation between relative abundance of bacterial bsh genes (COG3049) and human RORC gene (p < 0.03). This association was independent of type of diagnosis and biopsy site. There was no association among other analyzed bacterial COGs and host genes. Conclusions Using an integrative microbiome-host transcriptome approach, our data provide new evidence linking microbial bile acid deconjugation (bsh genes) and host gene expression in the mucosal-luminal interface in quiescent IBD-affected tissue. Nuclear receptor RORC is pivotal in the differentiation and function of innate lymphoid cells and T-helper 17 cells. Modulation of this pathway by bile acids or gut bacteria involved in their metabolism could shed light on the immune role of bile acids in IBD patients. Funding Agencies CAG, CIHRNational Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)

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