356 Meal feeding compared with continuous feeding enhances insulin and amino acid signaling to translation initiation in skeletal muscle of pigs

Abstract

Abstract Objectives: Meal feeding enhances skeletal muscle protein synthesis and lean growth more than continuous feeding in piglets. This enhanced muscle protein synthesis with meal feeding is associated with increased activation of mTORC1-dependent translation initiation. The mechanism underlying this response is unknown. We aimed to identify insulin and amino acid signaling components involved in the enhanced lean growth that results from meal feeding vs. continuous feeding in term-born pigs. Methods: Newborn piglets were fed for 21 d an equal amount of sow milk replacer (12.8 g protein and 155 kcal/(kg BW.d)) by gastrostomy tube either as intermittent bolus meals every 4 h (MEAL) or by continuous infusion (CON). After 21 d, gastrocnemius muscle was collected from CON, and before (MEAL-0) or 60 min after a meal (MEAL-60). Components of the insulin and amino acid signaling pathways up- and downstream of mTORC1 that regulate protein translation were measured. Results: Phosphorylation of AKT and TCS2 was greater in MEAL-60 than in MEAL-0 and CON (P < 0.05). The association of Sestrin2 with GATOR2 was similar in CON and MEAL-0 but was lower in MEAL-60 (P < 0.05). The abundances of RagA-mTOR, RagC-mTOR, and Rheb-mTOR, but not CASTOR1-GATOR2, complexes were higher in MEAL-60 than in CON and MEAL-0 (P < 0.05). The phosphorylation of S6K1 and 4EBP1 was higher in MEAL-60 than CON and MEAL-0 (P < 0.05). The abundances of Sestrin2, GATOR2, CASTOR1, RagA, RagC, and Rheb and the phosphorylation of eIF2alpha, eEF2, ERK1/2 and AMPK were unaffected by treatments. Conclusions: Our results demonstrate that the enhanced rate of skeletal muscle protein synthesis and lean growth with meal feeding compared with continuous feeding are due to the enhanced activation of both insulin and amino acid signaling pathways that result in the greater stimulation of translation initiation. Support: NIH HD085573, USDA CRIS 6250-51000-055, NIH HD072891, USDA NIFA 2013-67015-20438.