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  • Title: Taraxasterol alleviates fatty acid-induced lipid deposition in calf hepatocytes by decreasing ROS production and endoplasmic reticulum stress.
    Author: Li M, He Y, Zhang W, Yin Y, Jiang Q, Loor JJ, Wang J, Wen J, Yang W, Xu C, Zhang B.
    Journal: J Anim Sci; 2023 Jan 03; 101():. PubMed ID: 36638067.
    Abstract:
    Increased concentrations of free fatty acids (FFAs) induce reactive oxygen species (ROSs) generation and endoplasmic reticulum (ER) stress, thus, increasing the risk of fatty liver in dairy cows during the periparturient period. In non-ruminants, Taraxasterol (Tara; a pentacyclic triterpenoid found in medicinal plants) plays an important role in anti-inflammatory and antioxidant reactions. Whether Tara can alleviate or prevent fatty liver in ruminants is unknown. We addressed whether Tara supply could dampen lipid accumulation, ROSs production, and ER stress caused by FFAs in calf hepatocytes. Primary calf hepatocytes were isolated from five healthy calves (1 d old, female, 30-40 kg, fasting, rectal temperature 38.7-39.7 °C). In the first experiment, hepatocytes were incubated with various concentrations of Tara (2.5, 5, and 10 μg/mL) for 12 h prior to the 1.2-mM FFAs challenge. Results indicated that the level of ROSs was lowest with 5 μg/mL Tara. Thus, to further characterize the molecular mechanisms whereby Tara protects from FFAs-induced lipid deposition in calf hepatocytes, we performed incubations with 5 μg/mL Tara for 12 h prior to a 1.2-mM FFAs challenge for an additional 12 h. Results indicated that 1.2-mM FFAs challenge increased mitochondrial membrane potential (MMP), enhanced expression of proteins and mRNA associated with ER stress (PERK, IRE1, GRP78, ATF6, and CHOP) and fatty acid synthesis (FASN, ACC1, and SREBP-1c), and ultimately led to increased lipid droplet synthesis. In contrast, Tara treatment alleviated these negative effects after 1.2-mM FFAs challenge. To determine whether Tara protects against FFAs-induced lipid droplet synthesis by alleviating oxidative stress, hepatocytes were treated with 5 μg/mL Tara for 22 h prior to H2O2 (440 μM) challenge for 2 h. Compared with H2O2 treatment alone, results revealed a marked decrease in ROSs, MMP, and protein abundance of ER stress (GRP78, ATF6, and CHOP) and lipid droplet synthesis in response to Tara prior to H2O2 challenge. Data suggested that the increase in mitochondrial ROSs production contributes to lipid accumulation in calf hepatocytes. Collectively, our in vitro data indicate that Tara alleviates fatty acid-induced lipid deposition. Further research is warranted to ascertain that Tara can be helpful in the therapeutic management of early lactating cows to control or alleviate excessive hepatic lipid deposition. Fatty liver is a common occurrence in the early postpartum period, partly due to the large influx of fatty acids into the liver during adipose tissue lipolysis. Because there is a linkage between fatty acid metabolism, oxidative stress, and lipid deposition in hepatocytes of nonruminant animals, we evaluated the potential therapeutic roles of Taraxasterol on reactive oxygen species and endoplasmic reticulum (ER) stress in vitro. This compound found in medicinal plants alleviated oxidative and ER stress and reduced lipid accumulation. Thus, it may represent a novel therapeutic tool for the management of dairy cows around parturition.
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