Effects of quercetin and hydroxytyrosol supplementation in a high-fat diet on growth, lipid metabolism, and mitochondrial function in spotted seabass (Lateolabrax maculatus)

Endoplasmic reticulum (ER) stress and mitochondrial impairment commonly occur during the progression of fatty liver disease. There is a close connection and crosstalk between mitochondria and ER. The potential positive influence of mitigating ER stress (ERS) and mitochondrial damage in the context of preventing and treating fatty liver was explored in spotted seabass (Lateolabrax maculatus) as a susceptible model to fatty liver. A normal-fat diet (11% fat, NFD) and a high-fat diet (17% fat, HFD) were formulated and three additional diets were prepared by supplementation of quercetin (QUE) (0.1%), hydroxytyrosol (HT) (0.02%) or their combination (0.1% QUE + 0.02% HT) to the HFD (HFD + QUE HFD + HT and HFD + QUE + HT diets).Three replicate groups of fish (25 +/- 0.02 g) were fed the test diets to visual satiety for 8 weeks. The results revealed the deterioration of growth, feed intake and feed utilization in HFD group compared to the NFD group whereas QUE and HT application improved their values and the optimum results were achieved for the HFD + QUE + HT group. Serum aspartate amino-transferase (AST) and alanine aminotransferase (ALT) activities, and both serum and hepatic triglyceride (TG), total cholesterol (T-CHO) and non-esterified free fatty acids (NEFA) concentrations were enhanced in HFD group, and their values decreased by QUE and HT, particularly their combined supplementation. The results of oil red O staining exhibited a remarkable reduction in number of lipid droplets in the liver of fish from HFD + QUE + HT group compared to the HFD group. Whole-body and muscle fat contents and abdominal fat index decreased by QUE and HT application. Expression of lipid metabolism related genes (srebp-1c, fas, acc) were down-regulated by QUE and HT treatment. Co-supplementation of QUE and HT down-regulated the expression of ERS-related genes (grp78, chop, perk, atf6, ire1), improved ER ultrastructure, and enhanced the coupling between mito-chondria and ER. Moreover, expression of genes associated with hepatic mitochondrial biogenesis (pgc1-alpha, pgc1-beta, nrf1) and mitophagy (pink1, atg5, mul1) was up-regulated in HFD + QUE, HFD + HT and HFD + QUE + HT groups. These data suggest that combined supplementation of QUE and HT in HFD for spotted seabass can improve growth and feed utilization, reduce hepatic damage and fat accumulation, and alleviate HFD induced ERS and mitochondrial dysfunction.