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Major depressive disorder and other neuropsychiatric disorders are often managed with long-term use of antidepressant medication. Fluoxetine, an SSRI antidepressant, is widely used as a first-line treatment for neuropsychiatric disorders. However, fluoxetine has also been shown to increase the risk of metabolic diseases such as non-alcoholic fatty liver disease. Fluoxetine has been shown to increase hepatic lipid accumulation in vivo and in vitro. In addition, fluoxetine has been shown to alter the production of prostaglandins which have also been implicated in the development of non-alcoholic fatty liver disease. The goal of this study was to assess the effect of fluoxetine exposure on the prostaglandin biosynthetic pathway and lipid accumulation in a hepatic cell line (H4-II-E-C3 cells). Fluoxetine treatment increased mRNA expression of prostaglandin biosynthetic enzymes (Ptgs1, Ptgs2, and Ptgds), PPAR gamma (Pparg), and PPAR gamma downstream targets involved in fatty acid uptake (Cd36, Fatp2, and Fatp5) as well as production of 15-deoxy-Δ12,14PGJ2 a PPAR gamma ligand. The effects of fluoxetine to induce lipid accumulation were attenuated with a PTGS1 specific inhibitor (SC-560), whereas inhibition of PTGS2 had no effect. Moreover, SC-560 attenuated 15-deoxy-Δ12,14PGJ2 production and expression of PPAR gamma downstream target genes. Taken together these results suggest that fluoxetine-induced lipid abnormalities appear to be mediated via PTGS1 and its downstream product 15d-PGJ2 and suggest a novel therapeutic target to prevent some of the adverse effects of fluoxetine treatment. 相似文献
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Nonalcoholic fatty liver disease (NAFLD) is a major cause of liver‐related morbidity; its prevalence is elevating due to the rising epidemic of obesity. Several clinical trials have examined the effects of curcumin supplementation on anthropometric variables in NAFLD patients with inconclusive results. This dose–response meta‐analysis aimed to evaluate the impact of curcumin supplementation on body mass index (BMI), body weight, and waist circumference (WC) in patients with NAFLD. A systematic review of the literature was conducted using PubMed/Medline, ISI Web of Science, Scopus, Cochrane Library, EMBASE, Google Scholar, Sid.ir, and Magiran.com to identify eligible studies up to March 2019. A meta‐analysis of eligible studies was performed using the random‐effects model to estimate the pooled effect size. Eight randomized controlled trials with 520 participants (curcumin group = 265 and placebo group = 255) were included. Supplementation dose and duration ranged from 70 to 3,000 mg/day and 8 to 12 weeks, respectively. Curcumin supplementation significantly reduced BMI (weighted mean difference [WMD] = ?0.34 kg/m2, 95% CI [?0.64, ?0.04], p < .05) and WC (WMD = ?2.12 cm, 95% CI [?3.26, ?0.98], p < .001). However, no significant effects of curcumin supplementation on body weight were found. These results suggest that curcumin supplementation might have a positive effect on visceral fat and abdominal obesity that have been associated with NAFLD. 相似文献
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So far, innate immune mechanisms have been recognized as the main responsible for the evolution of both alcoholic steatohepatitis (ASH) and nonalcoholic steatohepatitis (NASH). However, increasing evidence points toward the possible role of adaptive immune responses, as an additional factor in promoting hepatic inflammation in steatohepatitis. In this article, we discuss recent data involving circulating antibodies and lymphocyte-mediated responses in sustaining the progression of ASH and NASH to fibrosis, as well as the possible mechanisms implicated in favoring the onset of adaptive immunity in the setting of steatohepatitis. 相似文献
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目的 研究杜仲叶所含4种主要成分体外抗非酒精性脂肪肝(Non-alcoholic fatty liver disease,NAFLD)活性。方法 首先用UPLC-MS检测杜仲叶提取物中绿原酸、杜仲苷、京尼平苷酸、车叶草苷含量;以HepG2细胞为载体,建立NAFLD细胞模型,设正常组、模型组、绿原酸组、杜仲苷组、京尼平苷酸组、车叶草苷组;油红O染色检测细胞内脂质;微量法检测细胞内甘油三酯(Triglyceride,TG)、胆固醇(Total cholesterol,TC)、高密度脂蛋白(High-density lipoprotein cholesterol,HDL-C)、低密度脂蛋白(Low-density lipoprotein cholesterol,LDL-C)含量;微量法检测细胞培养液中谷草转氨酶(Aspartate aminotransferase,AST)、谷丙转氨酶(Alanine aminotransferase,ALT)含量。结果 杜仲叶提取物主要含绿原酸、杜仲苷、京尼平苷酸和车叶草苷,其中京尼平苷酸的含量最高;杜仲叶提取物所含四种主要成分可明显降低细胞内TG、TC、LDL-C含量,其中京尼平苷酸效果最为显著;绿原酸、杜仲苷,京尼平苷酸可显著降低细胞培养液中AST、ALT含量,其中京尼平苷酸效果最好。结论 杜仲叶提取物所含四种主要成分可不同程度降低HepG2细胞内脂质含量,其中京尼平苷酸效果较好。 相似文献