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  • Title: Dietary glycine supplementation activates mechanistic target of rapamycin signaling pathway in tissues of pigs with intrauterine growth restriction.
    Author: He W, Posey EA, Steele CC, Savell JW, Bazer FW, Wu G.
    Journal: J Anim Sci; 2024 Jan 03; 102():. PubMed ID: 38761109.
    Abstract:
    The mechanistic target of rapamycin (mTOR) cell signaling pathway serves as the central mechanism for the regulation of tissue protein synthesis and growth. We recently reported that supplementing 1% glycine to corn- and soybean meal-based diets enhanced growth performance between weaning and market weights in pigs with intrauterine growth restriction (IUGR). Results of recent studies have revealed an important role for glycine in activating mTOR and protein synthesis in C2C12 muscle cells. Therefore, the present study tested the hypothesis that dietary glycine supplementation enhanced the mTOR cell signaling pathway in skeletal muscle and other tissues of IUGR pigs. At weaning (21 d of age), IUGR pigs and litter mates with normal birth weights (NBW) were assigned randomly to one of the two groups: supplementation with either 1% glycine or 1.19% l-alanine (isonitrogenous control) to a corn- and soybean meal-based diet. Tissues were obtained from the pigs within 1 wk after the feeding trial ended at 188 d of age to determine the abundances of total and phosphorylated forms of mTOR and its two major downstream proteins: eukaryotic initiation factor 4E-binding protein-1 (4EBP1) and ribosomal protein S6 kinase-1 (p70S6K). Results showed that IUGR decreased (P < 0.05) the abundances of both total and phosphorylated mTOR, 4EBP1, and p70S6K in the gastrocnemius muscle and jejunum. In the longissimus lumborum muscle of IUGR pigs, the abundances of total mTOR did not differ (P > 0.05) but those for phosphorylated mTOR and both total and phosphorylated 4EBP1 and p70S6K were downregulated (P < 0.05), when compared to NBW pigs. These adverse effects of IUGR in the gastrocnemius muscle, longissimus lumborum muscle, and jejunum were prevented (P < 0.05) by dietary glycine supplementation. Interestingly, the abundances of total or phosphorylated mTOR, 4EBP1, and p70S6K in the liver were not affected (P > 0.05) by IUGR or glycine supplementation. Collectively, our findings indicate that IUGR impaired the mTOR cell signaling pathway in the tissues of pigs and that adequate glycine intake was crucial for maintaining active mTOR-dependent protein synthesis for the growth and development of skeletal muscle. Soybean meal is the major source of dietary protein for growing pigs in many regions of the world, including North America, South America, and Asia. However, this conventional feedstuff is recognized to be severely deficient in glycine (the most abundant amino acid in the bodies of animals, including pigs). Compared to pigs with normal birth weights (NBW), pigs with intrauterine growth restriction (IUGR) have a lower ability to synthesize glycine and reduced growth performance between weaning and market weights. Results of recent studies with cultured muscle cells have revealed that glycine stimulates the mechanistic target of rapamycin (mTOR) cell signaling pathway (the master activator of initiation of protein synthesis in tissues) to promote protein synthesis and cell growth. There is also evidence that the mTOR pathway is impaired in the skeletal muscle of young IUGR pigs. Thus, dietary glycine supplementation may play an important role in maintaining an active mTOR cell signaling pathway for the growth of tissues, particularly skeletal muscle. Results of this study indicated that market-weight IUGR pigs had lower abundances of both total and phosphorylated mTOR, as well as its downstream target proteins in the gastrocnemius muscle, longissimus lumborum muscle, and jejunum, when compared with NBW pigs. In contrast, neither IUGR nor glycine supplementation affected the mTOR cell signaling pathway in the liver of pigs. Taken together, these novel findings indicate that IUGR pigs have insufficient cell signaling via the mTOR cell pathway in a tissue-specific manner during their growing-finishing phases of development and that this negative impact of IUGR can be mitigated by supplementing corn- and soybean meal-based diets with 1% glycine.
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