Abstract
This study aimed to investigate the ameliorative effects of glucuronolactone (GL) as a dietary additive on high-fat diet (HFD)-induced growth suppression and metabolic disorders in turbot. A 10-week feeding trial was conducted using juvenile turbot (16.7 ± 0.03 g). Two diets with different protein (%)/lipid (%) levels were formulated: PC (54/12) and NC (47/17). Based on the NC diet, three experimental diets were prepared by supplementing 200 (G200), 400 (G400), and 600 (G600) mg/kg of GL. The present results show that compared to the PC group, HFDs significantly inhibited the growth performance of turbot and induced severe metabolic disorders, hepatointestinal damage, and gut microbiota dysbiosis. Dietary GL supplementation effectively reversed these adverse effects. Specifically, compared to the NC group, GL supplementation significantly restored growth performance, enhanced non-specific immunity, and systematically improved metabolic health. In the liver, GL notably ameliorated tissue damage and downregulated key lipogenic genes (SREBP1, ACC, FAS, PPARγ), while upregulating genes involved in lipid oxidation and catabolism (PPARα1, CPT1, ACOX1, HSL, LPL) and lipid transport (ApoB100, MTP), thereby alleviating hepatic lipid deposition. Furthermore, GL activated the Nrf2/Keap1 antioxidant pathway, up-regulating the expression of genes such as SOD, CAT, GPX, and HO-1. It also suppressed the NF-κB-mediated inflammatory response (downregulation of IL-1β, IFN-γ and TNF-α2; upregulation of IL-10 and TGF-β2) and the mitochondrial apoptosis pathway (increased Bcl-2/Bax ratio; downregulation of Caspase3/7/9), collectively mitigating oxidative damage and cellular apoptosis. Moreover, GL restored intestinal morphology, enhanced the expression of tight junction proteins (Claudin-3, Claudin-7, ZO-1, Occludin) and MUC2, and inhibited MLCK signaling. These improvements led to a reduction in serum D-LA levels, indicating strengthened intestinal barrier function. Concurrently, GL reshaped the gut microbiota composition by enriching beneficial bacteria such as Akkermansia and suppressing potential pathogens like Listeria. In summary, GL effectively alleviated HFD-induced growth suppression and metabolic damage in turbot by improving lipid metabolism and alleviating hepatic injury, while concurrently restoring intestinal barrier integrity and microbiota homeostasis.