Differential effect of oleic and palmitic acid on lipid accumulation and apoptosis in cultured hepatocytes.

BACKGROUND AND AIM: Studies have shown monounsaturated oleic acid to be less toxic than palmitic acid and to prevent/attenuate palmitic acid hepatocites toxicity in steatosis models in vitro. However, to what degree these effects are mediated by steatosis extent is unknown. METHODS: We evaluated whether steatosis per se is associated with hepatocytes apoptosis and determined the role of oleic and palmitic acid, the most abundant fatty acids in western diets, on triglyceride accumulation and apoptosis in an in vitro model of steatosis induced in three hepatocytic cell lines (HepG2, HuH7, WRL68). The impact of incubation for 24 h with oleic (0.66 and 1.32 mM) and palmitic acid (0.33 and 0.66 mM), alone or combined (molar ratio 2 : 1) on steatosis, apoptosis, and insulin signalling, was evaluated. RESULTS: Concurrent with PPARgamma and SREBP-1 gene activation, steatosis extent was larger when cells were treated with oleic than with palmitic acid; the latter fatty acid was associated with increased PPARalpha expression. Cell apoptosis was inversely proportional to steatosis deposition. Moreover, palmitic, but not oleic acid, impaired insulin signalling. Despite the higher amount of fat resulting from incubation of the two fatty acids combined, the apoptosis rate and impaired insulin signalling were lower than in cells treated with palmitic acid alone, indicating a protective effect of oleic acid. CONCLUSIONS: Oleic acid is more steatogenic but less apoptotic than palmitic acid in hepatocityc cell cultures. These data may provide a biological basis for clinical findings on dietary patterns and pathogenetic models of nonalcoholic fatty liver disease.

Influence of newly synthesized cholesterol on bile acid synthesis during chronic inhibition of bile acid absorption.

The effects of newly synthesized cholesterol availability on bile acid synthesis are largely unknown, particularly in humans. The present study was aimed to study the changes induced on bile acid synthesis by simvastatin, a competitive inhibitor of hydroxymethyl glutaryl-CoA (HMG-CoA) reductase, the rate-limiting enzyme of cholesterol synthesis, during pharmacologic interruption of the enterohepatic circulation. Six patients with primary hypercholesterolemia were studied in basal conditions, after treatment with the bile acid binding resin cholestyramine alone (8-16 g/d for 6-8 weeks) and subsequently in combination with simvastatin (40 mg/d for 6-8 weeks). Cholesterol 7alpha-hydroxylation rate, a measure of total bile acid synthesis, was assayed in vivo by tritium release analysis. Serum lathosterol levels were assayed by gas chromatography-mass spectrometry as a measure of cholesterol synthesis. Serum total and low-density lipoprotein-cholesterol were reduced significantly after cholestyramine (by 26% and 30%, respectively) and during combined treatment (by 47% and 55%). 7alpha-hydroxylation rates increased nearly 4-fold with cholestyramine alone; addition of simvastatin induced a significant decrease of hydroxylation rates (cholestyramine alone, 1,591 +/- 183 mg/d; plus simvastatin, 1,098 +/- 232 mg/d; mean +/- SEM; P <.05). Hydroxylation rates significantly correlated with serum lathosterol/cholesterol ratio (r = 0.79, P <.05). In conclusion, in conditions of chronic stimulation bile acid synthesis may be affected by changes in newly synthesized cholesterol availability. The finding might relate to the degree of substrate saturation of microsomal cholesterol 7alpha-hydroxylase; alternatively, newly synthesized cholesterol might induce a stimulatory effect on cholesterol 7alpha-hydroxylase transcription.