14 results on '"Ishizuka, Satoshi"'
Search Results
2. The ratio of 12α to non-12-hydroxylated bile acids reflects hepatic triacylglycerol accumulation in high-fat diet-fed C57BL/6J mice.
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Iwasaki, Wakana, Yoshida, Ryo, Liu, Hongxia, Hori, Shota, Otsubo, Yuki, Tanaka, Yasutake, Sato, Masao, and Ishizuka, Satoshi
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LABORATORY mice ,BILE acids ,GASTROINTESTINAL contents ,HYDROXYCHOLESTEROLS ,CYTOCHROME P-450 ,ANIMAL species ,OXYSTEROLS - Abstract
In our previous study, enterohepatic 12α-hydroxylated (12α) bile acid (BA) levels were found to be correlated with hepatic triacylglycerol concentration in rats fed high-fat (HF) diet. Since BA composition is diverse depending on animal species, we evaluated whether such a relationship is applicable in mice in response to an HF diet. C57BL/6JJmsSLC (B6) male mice were fed HF diet for 13 weeks and analyzed for triacylglycerol, cholesterol, oxysterols, and other metabolites in the liver. The BA composition was determined in the liver, small intestinal contents, portal plasma, aortic plasma, and feces. Neutral sterols were also measured in the feces. The ratio of 12α BA/non-12 BA increased in the liver, portal plasma, small intestinal contents, and feces of HF-fed B6 mice. Moreover, a positive correlation was observed between the ratio of fecal 12α BAs/non-12 BAs and hepatic triacylglycerol concentration. The concentration of 7α-hydroxycholesterol was increased in the liver of HF-fed B6 mice, whereas no increase was observed in the hepatic expression of cytochrome P450 family 7 subfamily A member 1. The present study showed that the ratio of 12α BA/non-12 BA in feces is closely associated with hepatic triacylglycerol accumulation in B6 mice fed HF diet. [ABSTRACT FROM AUTHOR]
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- 2022
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3. Dietary raffinose ameliorates hepatic lipid accumulation induced by cholic acid via modulation of enterohepatic bile acid circulation in rats.
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Maegawa, Kenta, Koyama, Haruka, Fukiya, Satoru, Yokota, Atsushi, Ueda, Koichiro, and Ishizuka, Satoshi
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LIPID metabolism ,BIOLOGICAL models ,ANALYSIS of variance ,LIVER ,STEROIDS ,ANIMAL experimentation ,MULTIPLE regression analysis ,DIET ,RATS ,OLIGOSACCHARIDES ,BILE acids ,ACETIC acid ,FATTY acids ,ACCLIMATIZATION ,CECUM - Abstract
Enterohepatic circulation of 12α-hydroxylated (12αOH) bile acid (BA) is enhanced depending on the energy intake in high-fat diet-fed rats. Such BA metabolism can be reproduced using a diet supplemented with cholic acid (CA), which also induces simple steatosis, without inflammation and fibrosis, accompanied by some other symptoms that are frequently observed in the condition of non-alcoholic fatty liver in rats. We investigated whether supplementation of the diet with raffinose (Raf) improves hepatic lipid accumulation induced by the CA-fed condition in rats. After acclimation to the AIN-93-based control diet, male Wistar rats were fed diets supplemented with a combination of Raf (30 g/kg diet) and/or CA (0·5 g/kg diet) for 4 weeks. Dietary Raf normalised hepatic TAG levels (two-way ANOVA P < 0·001 for CA, P = 0·02 for Raf and P = 0·004 for interaction) in the CA-supplemented diet-fed rats. Dietary Raf supplementation reduced hepatic 12αOH BA concentration (two-way ANOVA P < 0·001 for CA, P = 0·003 for Raf and P = 0·03 for interaction). The concentration of 12αOH BA was reduced in the aortic and portal plasma. Raf supplementation increased acetic acid concentration in the caecal contents (two-way ANOVA P = 0·001 as a main effect). Multiple regression analysis revealed that concentrations of aortic 12αOH BA and caecal acetic acid could serve as predictors of hepatic TAG concentration (R
2 = 0·55, P < 0·001). However, Raf did not decrease the secondary 12αOH BA concentration in the caecal contents as well as the transaminase activity in the CA diet-fed rats. These results imply that dietary Raf normalises hepatic lipid accumulation via suppression of enterohepatic 12αOH BA circulation. [ABSTRACT FROM AUTHOR]- Published
- 2022
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4. 12α-Hydroxylated bile acid enhances accumulation of adiponectin and immunoglobulin A in the rat ileum.
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Yoshitsugu, Reika, Liu, Hongxia, Kamo, Yoshie, Takeuchi, Akari, Joe, Ga-Hyun, Tada, Koji, Kikuchi, Keidai, Fujii, Nobuyuki, Kitta, Shinri, Hori, Shota, Takatsuki, Manami, Iwaya, Hitoshi, Tanaka, Yasutake, Shimizu, Hidehisa, and Ishizuka, Satoshi
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BILE acids ,ADIPONECTIN ,IMMUNOGLOBULIN A ,DIETARY supplements ,LABORATORY rats - Abstract
We previously reported that dietary supplementation with cholic acid (CA), the primary 12α-hydroxylated (12αOH) bile acid (BA), reduces plasma adiponectin concentration in rats. The aim of this study was to examine the distribution of adiponectin in the body of CA-fed rats and its influence on mucosal immunoglobulin A concentration in the intestine. Rats were fed a diet supplemented with or without CA (0.5 g CA/kg diet) for 13 weeks. A reduction in plasma adiponectin level was observed from week 3. At the end of the experiment, the CA diet reduced plasma adiponectin concentration both in the portal and aortic plasma. Accumulation of adiponectin was accompanied by an increase in cadherin-13 mRNA expression in the ileal mucosa of CA-fed rats. No increase was observed in adiponectin mRNA expression in the ileal and adipose tissues of the CA-fed rats. Immunoglobulin A concentration in the ileal mucosa was elevated in the CA-fed rats and was correlated with the ileal adiponectin concentration. 12αOH BAs may modulate mucosal immune response that are involved in the accumulation of adiponectin in the ileum. [ABSTRACT FROM AUTHOR]
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- 2021
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5. Primary 12α-Hydroxylated Bile Acids Lower Hepatic Iron Concentration in Rats.
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Hori, Shota, Satake, Minako, Kohmoto, Ohji, Takagi, Ryo, Okada, Kazufumi, Fukiya, Satoru, Yokota, Atsushi, and Ishizuka, Satoshi
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BILE acids ,IRON ,CHOLIC acid ,IRON chelates ,RATS ,ENTEROHEPATIC circulation ,STEROIDS analysis ,IRON metabolism ,RESEARCH ,STEROIDS ,LIVER ,ANIMAL experimentation ,RESEARCH methodology ,VANCOMYCIN ,INGESTION ,MEDICAL cooperation ,EVALUATION research ,GENE expression ,COMPARATIVE studies ,POLYMERASE chain reaction - Abstract
Background: Primary 12α-hydroxylated bile acids (12αOH BAs) enhance intestinal iron uptake due to their ability ex vivo to chelate iron. However, no information is available on their role in vivo, especially in the liver.Objectives: To investigate the effects and mechanisms of primary 12αOH BAs on hepatic iron concentration in vivo.Methods: Male Wistar King A Hokkaido male rats (WKAH/HkmSlc) rats aged 4-5 weeks were fed a control diet or a diet with cholic acid (CA; 0.5 g/kg diet), the primary 12αOH BA, for 2 weeks (Study 1) or 13 weeks (Study 2). In Study 3, rats fed the same diets were given drinking water either alone or containing vancomycin (200 mg/L) for 6 weeks. The variables measured included food intake (Studies 1-3), bile acid profiles (Studies 1 and 3), hepatic iron concentration (Studies 1-3), fecal iron excretion (Studies 1 and 2), iron-related liver gene expression (Studies 2 and 3), and plasma iron-related factors (Studies 2 and 3).Results: In Study 1, CA feed reduced the hepatic iron concentration (-16%; P = 0.005) without changing food intake or fecal iron excretion. In Study 2, we found a significant increase in the aortic plasma concentration of lipocalin 2 (LCN2; +65%; P < 0.001), an iron-trafficking protein. In Study 3, we observed no effect of vancomycin treatment on the CA-induced reduction of hepatic iron concentration (-32%; P < 0.001), accompanied by increased plasma LCN2 concentration (+72%; P = 0.003), in the CA-fed rats despite a drastic reduction in the secondary 12αOH BA concentration (-94%; P < 0.001) in the aortic plasma.Conclusions: Primary 12αOH BAs reduced the hepatic iron concentration in rats. LCN2 may be responsible for the hepatic iron-lowering effect of primary 12αOH BAs by transporting iron out of the liver. [ABSTRACT FROM AUTHOR]- Published
- 2021
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6. Correlation between 12α-hydroxylated bile acids and insulin secretion during glucose tolerance tests in rats fed a high-fat and high-sucrose diet.
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Yoshitsugu, Reika, Kikuchi, Keidai, Hori, Shota, Iwaya, Hitoshi, Hagio, Masahito, Shimizu, Hidehisa, Hira, Tohru, and Ishizuka, Satoshi
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GLUCOSE tolerance tests ,HIGH-fat diet ,BILE acids ,SUCROSE ,SECRETION ,LIQUID chromatography-mass spectrometry ,BILE - Abstract
Background: Previously, we found a significant relationship in a rat study between energy intake and bile acid (BA) metabolism especially 12α-hydroxylated (12αOH) BAs. The present study was designed to reveal relationships among BA metabolism, glucose tolerance, and cecal organic acids in rats fed a high-fat and high-sucrose diet (HFS) by using multivariate and multiple regression analyses in two types of glucose tolerance tests (GTTs). Methods: Male WKAH/HkmSlc rats were fed with a control or a HFS for 13 weeks. Oral glucose tolerance test (OGTT) and intraperitoneal glucose tolerance test (IPGTT) were performed at week 9 and 11, respectively. BAs were analyzed by using ultra high-performance liquid chromatography-mass spectrometry. Organic acid concentrations in cecal contents were analyzed by using ultra high-performance liquid chromatography with post-column pH buffered electric conductivity method. Results: A positive correlation of aortic 12αOH BA concentration was observed with energy intake and visceral adipose tissue weight. We found that an increase of 12αOH BAs in enterohepatic circulation, intestinal contents and feces in the HFS-fed rats compared to those in control rats regardless of no significant increase of total BA concentration in the feces in the test period. Fecal 12αOH BA concentration was positively correlated with maximal insulin level in OGTT and area under curve of insulin in IPGTT. There was a positive correlation between aortic 12αOH BAs concentration and changes in plasma glucose level in both OGTT and IPGTT. In contrast, a decrease in the concentration of organic acids was observed in the cecal contents of the HFS-fed rats. Multiple linear regression analysis in the IPGTT revealed that the concentrations of aortic 12αOH BA and cecal acetic acid were the predictors of insulin secretion. Moreover, there was a positive correlation between concentration of portal 12αOH BAs and change in insulin concentration of peripheral blood in the IPGTT. Conclusion: The distribution analysis of BA compositions accompanied by GTTs revealed a close relationship between 12αOH BA metabolism and insulin secretion in GTTs in rats. [ABSTRACT FROM AUTHOR]
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- 2020
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7. Ingestion of difructose anhydride III partially suppresses the deconjugation and 7α-dehydroxylation of bile acids in rats fed with a cholic acid-supplemented diet.
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Lee, Dong Geun, Hori, Shota, Kohmoto, Ohji, Kitta, Shinri, Yoshida, Ryo, Tanaka, Yasutake, Shimizu, Hidehisa, Takahashi, Keisuke, Nagura, Taizo, Uchino, Hirokatsu, Fukiya, Satoru, Yokota, Atsushi, and Ishizuka, Satoshi
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INGESTION ,BILE acids ,LIQUID chromatography - Abstract
Difructose anhydride III (DFAIII) is a prebiotic involved in the reduction of secondary bile acids (BAs). We investigated whether DFAIII modulates BA metabolism, including enterohepatic circulation, in the rats fed with a diet supplemented with cholic acid (CA), one of the 12α-hydroxylated BAs. After acclimation, the rats were fed with a control diet or a diet supplemented with DFAIII. After 2 weeks, each group was further divided into two groups and was fed diet with or without CA supplementation at 0.5 g/kg diet. BA levels were analyzed in aortic and portal plasma, liver, intestinal content, and feces. As a result, DFAIII ingestion reduced the fecal deoxycholic acid level via the partial suppression of deconjugation and 7α-dehydroxylation of BAs following CA supplementation. These results suggest that DFAIII suppresses production of deoxycholic acid in conditions of high concentrations of 12α-hydroxylated BAs in enterohepatic circulation, such as obesity or excess energy intake. Abbreviation: BA: bile acid; BSH: bile salt hydrolase; CA: cholic acid; DCA: deoxycholic acid; DFAIII: difructose anhydride III; MCA: muricholic acid; MS: mass spectrometry; NCDs: non-communicable diseases; LC: liquid chromatography; SCFA: short-chain fatty acid; TCA: taurocholic acid; TCDCA: taurochenodeoxycholic acid; TDCA: taurodeoxycholic acid; TUDCA: tauroursodeoxychlic acid; TαMCA: tauro-α-muricholic acid; TβMCA: tauro-β-muricholic acid; TωMCA: tauro-ω-muricholic acid Suppressed deconjugation and 7α-dehydroxylation of 12α-hydroxylated bile acids by difructose anhydride III contribute to reduction of deoxycholic acid. [ABSTRACT FROM AUTHOR]
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- 2019
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8. Author Correction: The ratio of 12α to non-12-hydroxylated bile acids reflects hepatic triacylglycerol accumulation in high-fat diet-fed C57BL/6J mice.
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Iwasaki, Wakana, Yoshida, Ryo, Liu, Hongxia, Hori, Shota, Otsubo, Yuki, Tanaka, Yasutake, Sato, Masao, and Ishizuka, Satoshi
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BILE acids ,LABORATORY mice ,GENE expression - Abstract
Author Correction: The ratio of 12 to non-12-hydroxylated bile acids reflects hepatic triacylglycerol accumulation in high-fat diet-fed C57BL/6J mice Correction to: I Scientific Reports i https://doi.org/10.1038/s41598-022-20838-9, published online 06 October 2022 The original version of this Article contained an error in Figure 1e, where the X-axis label I Cyp27a1 i was incorrectly stated as I Cyp27b1 i . Graph: Figure 1 Distribution of chol-related molecules in mice fed control or HF diet. [Extracted from the article]
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- 2022
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9. Combination of soya pulp and Bacillus coagulans lilac-01 improves intestinal bile acid metabolism without impairing the effects of prebiotics in rats fed a cholic acid-supplemented diet.
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Lee, Yeonmi, Yoshitsugu, Reika, Kikuchi, Keidai, Joe, Ga-Hyun, Tsuji, Misaki, Nose, Takuma, Shimizu, Hidehisa, Hara, Hiroshi, Minamida, Kimiko, Miwa, Kazunori, and Ishizuka, Satoshi
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GUT microbiome ,ANIMAL experimentation ,BACILLUS (Bacteria) ,DIET ,RATS ,SOYFOODS ,PREBIOTICS - Abstract
Intestinal 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 of Bacillus coagulans improves 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 whether B. coagulans lilac-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 and ω-muricholic acids, and soya pulp ingestion alleviated problems related to plasma adiponectin and gut permeability in rats fed the CA diet. The combination of B. coagulans and 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. [ABSTRACT FROM PUBLISHER]
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- 2016
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10. Bile Acid Is a Host Factor That Regulates the Composition of the Cecal Microbiota in Rats.
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Islam, K.B.M. Saiful, Fukiya, Satoru, Hagio, Masahito, Fujii, Nobuyuki, Ishizuka, Satoshi, Ooka, Tadasuke, Ogura, Yoshitoshi, Hayashi, Tetsuya, and Yokota, Atsushi
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BILE acids ,GUT microbiome ,METABOLIC disorders ,ANTI-infective agents ,CHOLIC acid ,FLUORESCENCE in situ hybridization ,RNA ,LABORATORY rats - Abstract
Background & Aims: Alterations in the gastrointestinal microbiota have been associated with metabolic diseases. However, little is known about host factors that induce changes in gastrointestinal bacterial populations. We investigated the role of bile acids in this process because of their strong antimicrobial activities, specifically the effects of cholic acid administration on the composition of the gut microbiota in a rat model. Methods: Rats were fed diets supplemented with different concentrations of cholic acid for 10 days. We used 16S ribosomal RNA gene clone library sequencing and fluorescence in situ hybridization to characterize the composition of the cecal microbiota of the different diet groups. Bile acids in feces, organic acids in cecal contents, and some blood parameters were also analyzed. Results: Administration of cholic acid induced phylum-level alterations in the composition of the gut microbiota; Firmicutes predominated at the expense of Bacteroidetes. Cholic acid feeding simplified the composition of the microbiota, with outgrowth of several bacteria in the classes Clostridia and Erysipelotrichi. Externally administered cholic acid was efficiently transformed into deoxycholic acid by a bacterial 7α-dehydroxylation reaction. Serum levels of adiponectin decreased significantly in rats given the cholic acid diet. Conclusions: Cholic acid regulates the composition of gut microbiota in rats, inducing similar changes to those induced by high-fat diets. These findings improve our understanding of the relationship between metabolic diseases and the composition of the gastrointestinal microbiota. [ABSTRACT FROM AUTHOR]
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- 2011
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11. Voluntary wheel running exercise and dietary lactose concomitantly reduce proportion of secondary bile acids in rat feces.
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Hagio, Masahito, Matsumoto, Megumi, Yajima, Takaji, Hara, Hiroshi, and Ishizuka, Satoshi
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LIQUID chromatography ,ELECTROSPRAY ionization mass spectrometry ,CANCER risk factors ,BILE acids ,METABOLISM ,EXERCISE - Abstract
According to epidemiologic studies, a negative correlation exists between exercise amount and subsequent cancer development risk in the large intestine. The proportion of secondary bile acids (SBA) in the large intestine is related to subsequent risk for colorectal carcinogenesis. The aim of this study was to investigate the effects of voluntary wheel running exercise and dietary intervention on bile acid (BA) metabolism in the large intestine. Wistar/ST rats (6 wk old) were divided into two groups, exercise and sedentar), after acclimation. Four days after the animals were assigned to a group, rats in each group were fed diets supplemented with different carbohydrate sources including dextrin, sucrose, and lactose. The wheel running period was 4 wk in the exercise group, whereas rats in the sedentary group remained in individual cages during this period. BA composition in collected feces was analyzed with ultraperformance liquid chromatography-electrospray ionization mass spectrometry. We found that wheel running exercise decreased plasma concentrations of cholesterol, triglyceride, and free fatty acids. These decreases were accompanied by a reduction in the proportion of SBA to primary BA (PBA) in feces; however, daily excretion of BA was comparable regardless of wheel running exercise. In addition, ingestion of lactose decreased the SBA-to-PBA ratio and suppressed production of hyodeoxycholic acid in feces. In conclusion, voluntary wheel running exercise, in combination with dietary intervention, could independently reduce the SBA-to-PBA ratio within the large intestine without changing BA excretion. These changes may contribute to the prevention of colarectal carcinogenesis. [ABSTRACT FROM AUTHOR]
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- 2010
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12. Diet supplementation with cholic acid promotes intestinal epithelial proliferation in rats exposed to γ-radiation.
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Hagio, Masahito, Shimizu, Hidehisa, Joe, Ga-Hyun, Takatsuki, Manami, Shiwaku, Maiko, Xu, Hong, Lee, Ja-Young, Fujii, Nobuyuki, Fukiya, Satoru, Hara, Hiroshi, Yokota, Atsushi, and Ishizuka, Satoshi
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DIETARY supplements , *CHOLIC acid , *CELL proliferation , *LABORATORY rats , *HIGH-fat diet , *BILE acids , *DEOXYCHOLIC acid - Abstract
Consumption of a high-fat diet increases some secondary bile acids (BAs) such as deoxycholic acid (DCA) in feces. DCA is derived from cholic acid (CA), a primary BA. We evaluated intestinal epithelial proliferation and BA metabolism in response to oral administration of cholic acid (CA) in rats to determine the influence of a CA diet on the responses of gut epithelia to γ-rays. WKAH/HkmSlc rats were divided into two dietary groups: control diet or CA-supplemented (2 g/kg diet) diet. Some of the rats from each group were irradiated with γ-rays, and epithelial cell proliferation in the colon was analyzed histochemically. Unirradiated CA-fed rats had high levels of DCA and CA in the sera, as well as the presence of taurocholic acid in their feces. Significant increases were observed in both epithelial proliferation and the number of epithelial cells in the colon of the CA-fed rats, and this effect was observed at 8 weeks after γ-ray exposure. Furthermore, extracts from both cecal contents and sera of the unirradiated CA-fed rats promoted proliferation of IEC-6 cells. These results indicate that BAs in enterohepatic circulation promote proliferation and survival of the intestinal epithelium after receiving DNA damage. [ABSTRACT FROM AUTHOR]
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- 2015
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13. Taurocholic acid, a primary 12α-hydroxylated bile acid, induces leakiness in the distal small intestine in rats.
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Liu, Hongxia, Kohmoto, Ohji, Sakaguchi, Ayana, Hori, Shota, Tochigi, Misuzu, Tada, Koji, Lee, Yeonmi, Kikuchi, Keidai, and Ishizuka, Satoshi
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BILE acids , *CHOLIC acid , *DEOXYCHOLIC acid , *HIGH-fat diet , *LARGE intestine , *SMALL intestine - Abstract
A high-fat diet increases 12α-hydroxylated (12αOH) bile acid (BA) secretion in rats, and secondary BAs are responsible for the leaky gut. This study aimed to examine the role of primary 12αOH BAs in gut barrier impairment in rats using dietary cholic acid (CA) supplementation (0.5 g/kg diet). The CA diet increased the 12αOH BAs concentrations in the small and large intestine, accompanied by gut barrier impairment. Based on the luminal 12αOH BAs concentrations, ex vivo gut leakiness was determined. Deoxycholic acid increased permeability in the large intestine, whereas taurocholic acid (TCA) increased the ileal permeability, but not jejunal permeability. A Rho kinase inhibitor attenuated TCA-induced ileal permeability. Administration of vancomycin, which abolishes secondary BAs, did not influence the gut leakiness induced by the CA diet. Changes in the gut permeation marker in the tail vein blood suggested the possibility that the CA-induced leakiness occurred in the small intestine. The CA diet enhanced the phosphorylation of myosin light chain 2 and reduced claudins expressions in rat ileal epithelia. Reductions in barrier function-related genes were observed in the ileum, but not in the colon of the CA-fed rats. Overall, the present study demonstrated the significance of TCA in proximal gut leakiness. [Display omitted] • Dietary cholic acid (CA) for 2 weeks increases gut permeability in rats. • Taurocholic acid (TCA) induces ileum-specific leakiness ex vivo. • TCA in portal blood correlates gut permeability in rats. • Abrogation of secondary bile acids does not affect the CA-induced gut leakiness. • Alteration of gene expressions in barrier function are observed mainly in the ileum. [ABSTRACT FROM AUTHOR]
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- 2022
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14. Association between 12α-hydroxylated bile acids and hepatic steatosis in rats fed a high-fat diet.
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Hori, Shota, Abe, Takayuki, Lee, Dong Geun, Fukiya, Satoru, Yokota, Atsushi, Aso, Nao, Shirouchi, Bungo, Sato, Masao, and Ishizuka, Satoshi
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HIGH-fat diet , *BILE acids , *DISEASE risk factors , *FATTY degeneration , *CHOLIC acid , *CARDIOVASCULAR diseases risk factors - Abstract
High-fat (HF) diet induces hepatic steatosis that is a risk factor for noncommunicable diseases such as obesity, type 2 diabetes and cardiovascular disease. Previously, we found that HF feeding in rats increases the excretion of fecal bile acids (BAs), specifically 12α-hydroxylated (12αOH) BAs. Although the liver is the metabolic center in our body, the association between hepatic steatosis and 12αOH BAs in HF-fed rats is unclear. Thus, we investigated extensively BA composition in HF-fed rats and evaluated the association between hepatic steatosis and 12αOH BAs. Acclimated male inbred WKAH/HkmSlc rats were divided into two groups and fed either control or HF diet for 8 weeks. Feeding HF diet increased hepatic triglyceride and total cholesterol concentrations, which correlated positively with 12αOH BAs concentrations but not with non-12αOH BAs in the feces, portal plasma and liver. Accompanied by the increase in 12αOH BAs, the rats fed HF diet showed increased fat absorption and higher mRNA expression of liver Cidea. The enhancement of 12αOH BA secretion may contribute to hepatic steatosis by the promotion of dietary fat absorption and hepatic Cidea mRNA expression. The increase in 12αOH BAs was associated with enhanced liver cholesterol 7α-hydroxylase (Cyp7a1) and sterol 12α-hydroxylase (Cyp8b1) mRNA expression. There was a significant increase in 7α-hydroxycholesterol, a precursor of BAs, in the liver of HF-fed rats. Altogether, these data suggest that the HF diet increases preferentially 12αOH BAs synthesis by utilizing the accumulated hepatic cholesterol and enhancing mRNA expression of Cyp7a1 and Cyp8b1 in the liver. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
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