Palmitate Induces Insulin Resistance in H4IIEC3 Hepatocytes through Reactive Oxygen Species Produced by Mitochondria

Nakamura, Seiji; Takamura, Toshinari; Nagata, Naoto; Takayama, Hiroaki; Makino, Hírofumi; Noda, Hidetoshi; Nabemoto, Satoko; Kurita, Seiichiro; Ota, Tsuguhito; Ando, Hitoshi; Miyamoto, Ken‐ichi; Kaneko, Shuichi

doi:10.1074/jbc.m901488200

Cited by 374 publications

(346 citation statements)

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“…Infusion of saturated fatty acids to the mice significantly increased ceramide content in the liver and soleus muscles, while myriocin, an inhibitor of SPT activity, injection to the animals blocked ceramide production in tissues (Holland et al 2007). Palmitic acid addition to the culture media of hepatocytes induced significantly the intracellular accumulation of ceramide (Wei et al 2006;Nakamura et al 2009). Palmitate-induced ceramide accumulation in the liver cells and astrocytes was prevented by the inhibitors of SPT (L-cycloserine) or ceramide synthase (fumonisin B1), respectively, but not by the aSMase inhibitor (disipramine) (Wei et al 2006;Blázquez et al 2000).…”

Section: Discussionmentioning

confidence: 99%

Vitamin E prevents the age-dependent and palmitate-induced disturbances of sphingolipid turnover in liver cells

Babenko

Hassouneh

Kharchenko

et al. 2011

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Sphingolipid turnover has been shown to be activated at old age and in response to various stress stimuli including oxidative stress. Reduction of vitamin E content in the liver under the pro-oxidant action is associated with enhanced sphingolipid turnover and ceramide accumulation in hepatocytes. In the present paper, the correction of sphingolipid metabolism in the liver cells of old rats and in the palmitate-treated young hepatocytes using α-tocopherol has been investigated. 3-and 24-month-old rats, [ 14 C] palmitic acid, [methyl− 14 C-choline]sphingomyelin (SM), and [ 14 C]serine were used. α-Tocopherol administration to old rats or addition to the culture medium of old liver slices or hepatocytes prevented age-dependent increase of ceramide synthesis and lipid accumulation, and increased SM content in liver tissue and cells. α-Tocopherol treatment of old cells decreased the neutral and acid sphingomyelinase (SMase) activities in hepatocytes and serine palmitoyl transferase activity in the liver cell microsomes. Effect of α-or γ-tocopherol, but not of δ-tocopherol, on the newly synthesized ceramide content in old cells was correlated with the action of inhibitor of serine palmitoyl transferase (SPT) activity (myriocin) and SMase inhibitors (glutathione, imipramine). Addition of α-tocopherol as well as myriocin to the culture medium of young hepatocytes, treated by palmitate, abolished ceramide accumulation and synthesis. The data obtained demonstrate that α-tocopherol normalized elevated ceramide content in the old liver cells via inhibition of acid and neutral SMase activities and lipid synthesis de novo. α-Tocopherol, reducing ceramide synthesis, prevented palmitate-induced aging-like ceramide accumulation in young liver cells.

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Section: Discussionmentioning

confidence: 99%

Vitamin E prevents the age-dependent and palmitate-induced disturbances of sphingolipid turnover in liver cells

Babenko

Hassouneh

Kharchenko

et al. 2011

AGE

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“…Ezetimibe therapy also altered the hepatic profile of fatty acid components by significantly increasing hepatic levels of lauric, myristic, palmitic, palmitoleic, margaric, stearic, oleic and linoleic acids. Experimentally, palmitate induces interleukin-8 [32], endoplasmic reticulum stress, and c-Jun amino-terminal kinase activation and promotes apoptosis in the liver [5,33,34]. Lipid-induced oxidative stress and inflammation are closely related to insulin resistance [3,5], which could be relevant to the ezetimibe-induced deterioration of glucose homeostasis.…”

Section: Discussionmentioning

confidence: 99%

“…Steatosis of the liver is closely associated with insulin resistance. However, the toxic lipids are not intrahepatic triacylglycerols but, rather, it is non-esterified cholesterol [3,4] and some NEFA [5] that contribute to inflammation and insulin resistance in hepatocytes.…”

Section: Introductionmentioning

confidence: 99%

The effects of ezetimibe on non-alcoholic fatty liver disease and glucose metabolism: a randomised controlled trial

et al. 2014

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Aims/hypothesis The cholesterol absorption inhibitor ezetimibe has been shown to ameliorate non-alcoholic fatty liver disease (NAFLD) pathology in a single-armed clinical study and in experimental animal models. In this study, we investigated the efficacy of ezetimibe on NAFLD pathology in an open-label randomised controlled clinical trial. Methods We had planned to enrol 80 patients in the trial, as we had estimated that, with this sample size, the study would have 90% power. The study intervention and enrolment were discontinued because of the higher proportion of adverse events (significant elevation in HbA 1c ) in the ezetimibe group than in the control group. Thirty-two patients with NAFLD were enrolled and randomised (allocation by computer program). Ezetimibe (10 mg/day) was given to 17 patients with NAFLD for 6 months. The primary endpoint was change in serum aminotransferase level. Secondary outcomes were change in liver histology (12 control and 16 ezetimibe patients), insulin sensitivity including a hyperinsulinaemic-euglycaemic clamp study (ten control and 13 ezetimibe patients) and hepatic fatty acid composition (six control and nine ezetimibe patients). Hepatic gene expression profiling was completed in 15 patients using an Affymetrix gene chip. Patients and the physician in charge knew to which group the patient had been allocated, but people carrying out measurements or examinations were blinded to group. Results Serum total cholesterol was significantly decreased in the ezetimibe group. The fibrosis stage and ballooning score were also significantly improved with ezetimibe treatment. However, ezetimibe treatment significantly increased HbA 1c and was associated with a significant increase in hepatic longchain fatty acids. Hepatic gene expression analysis showed coordinate downregulation of genes involved in skeletal muscle development and cell adhesion molecules in the ezetimibe treatment group, suggesting a suppression of stellate cell development into myofibroblasts. Genes involved in the L-carnitine pathway were coordinately downregulated by ezetimibe treatment and those in the steroid metabolism pathway upregulated, suggestive of impaired oxidation of long-chain fatty acids. Conclusions/interpretation Ezetimibe improved hepatic fibrosis but increased hepatic long-chain fatty acids and HbA 1c in patients with NAFLD. These findings shed light on previously unrecognised actions of ezetimibe that should be examined further in future studies.

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“…Rather, free cholesterol and saturated free fatty acid palmitate are regarded as toxic lipids that cause hepatic insulin resistance via oxidative stress (17) 2) In an in vitro fatty liver system using H4IIEC3 hepatocytes, a saturated fatty acid palmitate, but not an unsaturated fatty acid oleate, inhibits insulin-stimulated tyrosine phosphorylation of insulin receptor substrate 2 and serine phosphorylation of Akt, through c-Jun NH 2 -terminal kinase (JNK) activation (5). In this model, mitochondrial β oxidation-derived reactive oxygen species (ROS) play a causal role in the palmitate-induced JNK activation (5). Therefore, toxic lipid-induced mitochondrial ROS may also underlie the link between steatosis and insulin resistance in the liver.…”

Section: Ectopic Fat Accumulation and Organ-specific Insulin Resistancementioning

confidence: 99%

“…Although obesity is less common (2), diabetes is a huge and growing problem in Asia (3), suggesting that Asian people may be feasible to obesity-associated metabolic dysregulation. Accumulating evidence suggests that ectopic fat accumulation in insulin-target organs leads to development of insulin resistance in each organ by altering oxidative stress (4,5) and gene expression profiles (6,7). Specifically, the liver functions as a center to maintain whole body energy homeostasis by sensing nutrient stimuli and by producing a variety of nutrients and bioactive substances.…”

Section: Introductionmentioning

confidence: 99%

Ectopic Fat Accumulation in the Liver and Glucose Homeostasis

Takamura

Makino

Kaneko

2016

Musculoskeletal Disease Associated With Diabetes Mellitus

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Palmitate Induces Insulin Resistance in H4IIEC3 Hepatocytes through Reactive Oxygen Species Produced by Mitochondria

Cited by 374 publications

References 40 publications

Vitamin E prevents the age-dependent and palmitate-induced disturbances of sphingolipid turnover in liver cells

Vitamin E prevents the age-dependent and palmitate-induced disturbances of sphingolipid turnover in liver cells

The effects of ezetimibe on non-alcoholic fatty liver disease and glucose metabolism: a randomised controlled trial

Ectopic Fat Accumulation in the Liver and Glucose Homeostasis

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