Sodium 4-phenylbutyrate prevents murine dietary steatohepatitis caused by &lt;i&gt;trans&lt;/i&gt;-fatty acid plus fructose

Morinaga, Maki; Kon, Kazuyoshi; Saito, Hiroaki; Arai, Kumiko; Kusama, Hiromi; Uchiyama, Akira; Yamashina, Shunhei; Ikejima, Kenichi; Watanabe, Sumio

doi:10.3164/jcbn.15-75

Cited by 14 publications

(16 citation statements)

References 41 publications

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“…Previously, Koppe and colleagues showed that compared to diets high in saturated fatty acids, a diet high in industrial trans fatty acids markedly increased plasma ALT activity in AKR/J mice, suggesting enhanced liver damage . Furthermore, studies in different mouse strains revealed that diets rich in industrial trans fatty acids promote hepatic steatosis and fibrosis . Our in vivo study, which provides the most detailed characterization of the effects of industrial trans fatty acids on the liver, extends these findings by showing that a diet enriched in trans fatty acids enhances liver steatosis and fibrosis, and raises hepatic triglyceride levels, hepatic cholesterol levels, plasma acute phase proteins, and plasma ALT activity.…”

Section: Discussionsupporting

confidence: 71%

Industrial Trans Fatty Acids Stimulate SREBP2‐Mediated Cholesterogenesis and Promote Non‐Alcoholic Fatty Liver Disease

Oteng

Loregger

Weeghel

et al. 2019

Molecular Nutrition Food Res

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Scope The mechanisms underlying the deleterious effects of trans fatty acids on plasma cholesterol and non‐alcoholic fatty liver disease (NAFLD) are unclear. Here, the aim is to investigate the molecular mechanisms of action of industrial trans fatty acids. Methods and results Hepa1‐6 hepatoma cells were incubated with elaidate, oleate, or palmitate. C57Bl/6 mice were fed diets rich in trans‐unsaturated, cis‐unsaturated, or saturated fatty acids. Transcriptomics analysis of Hepa1‐6 cells shows that elaidate but not oleate or palmitate induces expression of genes involved in cholesterol biosynthesis. Induction of cholesterogenesis by elaidate is mediated by increased sterol regulatory element‐binding protein 2 (SREBP2) activity and is dependent on SREBP cleavage–activating protein (SCAP), yet independent of liver‐X receptor and ubiquitin regulatory X domain‐containing protein 8. Elaidate decreases intracellular free cholesterol levels and represses the anticholesterogenic effect of exogenous cholesterol. In mice, the trans‐unsaturated diet increases the ratio of liver to gonadal fat mass, steatosis, hepatic cholesterol levels, alanine aminotransferase activity, and fibrosis markers, suggesting enhanced NAFLD, compared to the cis‐unsaturated and saturated diets. Conclusion Elaidate induces cholesterogenesis in vitro by activating the SCAP–SREBP2 axis, likely by lowering intracellular free cholesterol and attenuating cholesterol‐dependent repression of SCAP. This pathway potentially underlies the increase in liver cholesterol and NAFLD by industrial trans fatty acids.

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Section: Discussionsupporting

confidence: 71%

Industrial Trans Fatty Acids Stimulate SREBP2‐Mediated Cholesterogenesis and Promote Non‐Alcoholic Fatty Liver Disease

Oteng

Loregger

Weeghel

et al. 2019

Molecular Nutrition Food Res

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“…It has been reported that PBA may act as a histone deacetylase inhibitor, serve as a chemical chaperone, or act as an ammonia scavenger (17). Furthermore, PBA has been found to suppress endoplasmic reticulum stress and exert anti-inflammatory effects (18)(19)(20)(21). The authors of the present study have previously reported that PBA may function as a therapeutic reagent for neurodegenerative disorders, and that intraperitoneal administration of PBA suppresses the onset of experimental murine colitis (22,23).…”

Section: Introductionmentioning

confidence: 83%

“…In the present study, orally administered PBA was demonstrated to delay the onset of experimental colitis. PBA treatment is not accompanied by the particular side effects of existing IBD therapeutics, and has the added benefit of an oral route of administration (15)(16)(17)(18)(19)(20)(21). PBA may therefore be one of a new type of therapeutic agents, which includes anti-TNF-α therapies (29)(30)(31)(32)(33).…”

Section: Discussionmentioning

confidence: 99%

Orally administered sodium 4‑phenylbutyrate suppresses the development of dextran sulfate sodium‑induced colitis in mice

et al. 2017

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Abstract. Sodium 4-phenylbutyrate (PBA) exerts therapeutic effects in a wide range of pathologies. A previous study by the present authors revealed that intraperitoneal administration of PBA suppresses the onset of dextran sulfate sodium (DSS)-induced colitis in mice. In the present study, the effects of orally administered PBA are investigated, as this route of administration is more clinically relevant. The therapeutic efficacy of PBA (10 mg/12 h) in mice with experimental colitis was assessed based on the disease activity index, production of inflammatory cytokines, colon length and histopathological investigations. The results of the present study demonstrated a significantly higher survival rate in the PBA-treated group compared with the PBA-untreated (DSS control) group (P=0.0156). PBA treatment improved pathological indices of experimental colitis (P<0.05). Furthermore, the oral administration of PBA significantly inhibited the DSS-induced shortening of the colon (P<0.05) and overproduction of interleukin (IL)-1β and IL-6 (both P<0.05) as measured in colonic lavage fluids. A marked attenuation of the DSS-induced overproduction of tumor necrosis factor was also observed. For histopathological analysis, a marked decrease in mature goblet cells and increase in enlarged nuclei of the absorptive cells was observed in colon lesions of DSS control mice as compared with normal untreated mice. However, in the PBA-treated mice, no such lesions were observed and the mucosa resembled that of DSS-untreated mice. The results of the present study, combined with those results of a previous study, suggest that oral and intraperitoneal administration of PBA have similar preventative effects on DSS-induced colitis, achieved by suppressing its pathogenesis.

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“…For histological evaluation, liver tissues were fixed in 10% buffered formalin and embedded in paraffin, and hematoxylin–eosin staining was carried out. Caspase cleavage product of cytokeratin (ccCK) 18 was detected by immunohistochemistry using M30 CytoDEATH monoclonal antibody (Roche, Basel, Switzerland) as described previously . Briefly, deparaffinized tissue sections were incubated with a monoclonal anti‐M30 antibody and secondary biotinylated anti‐mouse immunoglobulin G, and the specific binding was visualized with avidin–biotin complex solution followed by incubation with a 3, 3‐diaminobenzidine tetrahydrochloride solution using a Vectastain Elite ABC kit (Vector Laboratories, Burlingame, CA, USA).…”

Section: Methodsmentioning

confidence: 99%

L‐carnitine prevents metabolic steatohepatitis in obese diabetic KK‐A^y mice

Kon

Ikejima

Morinaga

et al. 2016

Hepatology Research

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Aim: Pharmacological treatment for metabolic syndromerelated non-alcoholic steatohepatitis has not been established. We investigated the effect of L-carnitine, an essential substance for β-oxidation, on metabolic steatohepatitis in mice. Methods:Male KK-A y mice were fed a high-fat diet (HFD) for 8 weeks, with supplementation of L-carnitine (1.25 mg/mL) in drinking water for the latter 4 weeks.Results: Serum total carnitine levels were decreased following HFD feeding, whereas the levels were reversed almost completely by L-carnitine supplementation. In mice given L-carnitine, exacerbation of hepatic steatosis and hepatocyte apoptosis was markedly prevented even though HFD feeding was continued. Body weight gain, as well as hyperlipidemia, hyperglycemia, and hyperinsulinemia, following HFD feeding were also significantly prevented in mice given L-carnitine. High-fat diet feeding elevated hepatic expression levels of carnitine palmitoyltransferase 1A mRNA; however, production of β-hydroxybutyrate in the liver was not affected by HFD alone.In contrast, L-carnitine treatment significantly increased hepatic β-hydroxybutyrate contents in HFD-fed mice. L-carnitine also blunted HFD induction in sterol regulatory element binding protein-1c mRNA in the liver. Furthermore, L-carnitine inhibited HFD-induced serine phosphorylation of insulin receptor substrate-1 in the liver. L-carnitine decreased hepatic free fatty acid content in 1 week, with morphological improvement of swollen mitochondria in hepatocytes, and increases in hepatic adenosine 5'-triphosphate content.Conclusions: L-carnitine ameliorates steatohepatitis in KK-A y mice fed an HFD, most likely through facilitating mitochondrial β-oxidation, normalizing insulin signals, and inhibiting de novo lipogenesis in the liver. It is therefore postulated that supplementation of L-carnitine is a promising approach for prevention and treatment of metabolic syndrome-related non-alcoholic steatohepatitis.

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Sodium 4-phenylbutyrate prevents murine dietary steatohepatitis caused by <i>trans</i>-fatty acid plus fructose

Cited by 14 publications

References 41 publications

Industrial Trans Fatty Acids Stimulate SREBP2‐Mediated Cholesterogenesis and Promote Non‐Alcoholic Fatty Liver Disease

Industrial Trans Fatty Acids Stimulate SREBP2‐Mediated Cholesterogenesis and Promote Non‐Alcoholic Fatty Liver Disease

Orally administered sodium 4‑phenylbutyrate suppresses the development of dextran sulfate sodium‑induced colitis in mice

L‐carnitine prevents metabolic steatohepatitis in obese diabetic KK‐A^y mice

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Sodium 4-phenylbutyrate prevents murine dietary steatohepatitis caused by <i>trans</i>-fatty acid plus fructose

Cited by 14 publications

References 41 publications

Industrial Trans Fatty Acids Stimulate SREBP2‐Mediated Cholesterogenesis and Promote Non‐Alcoholic Fatty Liver Disease

Industrial Trans Fatty Acids Stimulate SREBP2‐Mediated Cholesterogenesis and Promote Non‐Alcoholic Fatty Liver Disease

Orally administered sodium 4‑phenylbutyrate suppresses the development of dextran sulfate sodium‑induced colitis in mice

L‐carnitine prevents metabolic steatohepatitis in obese diabetic KK‐Ay mice

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L‐carnitine prevents metabolic steatohepatitis in obese diabetic KK‐A^y mice