Skeletal muscle proteome of piglets is affected in a muscle-dependent manner by a limiting total sulfur amino acid supply

“…Altogether, this seems to suggest that ULU piglets are breaking down endogenous protein, using the resulting amino acids as an energy source to meet their requirements. A similar mechanism has been reported in the muscle of piglets fed with restricted dietary contents of sulphur amino acids, where restricted piglets increased pyruvate oxidation along with oxidative stress response proteins, as well as heat shock proteins, including HSPB1 43 . Yu et al 44 have reported that pigs fed with low starch and high NDF and ether extract diets suppress mTOR signalling protein synthesis and increase the ubiquitin–proteasome pathway in the skeletal muscle.…”

“…These can then be used in the TCA cycle further downstream, where proteins such as IDH3B participate. This is rather interesting given that Conde-Aguilera et al 43 have reported that a lack of amino acid balance leads to fattier carcasses and IDH3B has furthermore been related to fat-accumulation in pigs 49 . The disruption of muscle metabolism homeostasis is additionally supported by the higher abundance of oxidative metabolism proteins (CAT, GSTM3, GLRX3) and heat shock proteins (HSP90, HSPB1 and HSPA1A) in ULU muscle.…”

Integrated transcriptomics and proteomics analysis reveals muscle metabolism effects of dietary Ulva lactuca and ulvan lyase supplementation in weaned piglets

“…Altogether, this seems to suggest that ULU piglets are breaking down endogenous protein, using the resulting amino acids as an energy source to meet their requirements. A similar mechanism has been reported in the muscle of piglets fed with restricted dietary contents of sulphur amino acids, where restricted piglets increased pyruvate oxidation along with oxidative stress response proteins, as well as heat shock proteins, including HSPB1 43 . Yu et al 44 have reported that pigs fed with low starch and high NDF and ether extract diets suppress mTOR signalling protein synthesis and increase the ubiquitin–proteasome pathway in the skeletal muscle.…”

“…These can then be used in the TCA cycle further downstream, where proteins such as IDH3B participate. This is rather interesting given that Conde-Aguilera et al 43 have reported that a lack of amino acid balance leads to fattier carcasses and IDH3B has furthermore been related to fat-accumulation in pigs 49 . The disruption of muscle metabolism homeostasis is additionally supported by the higher abundance of oxidative metabolism proteins (CAT, GSTM3, GLRX3) and heat shock proteins (HSP90, HSPB1 and HSPA1A) in ULU muscle.…”

Integrated transcriptomics and proteomics analysis reveals muscle metabolism effects of dietary Ulva lactuca and ulvan lyase supplementation in weaned piglets

“…These results are consistent with other studies showing that changes in feed consumption and growth rate of pigs modify muscle metabolism according to muscle type 31 . For instance, reduced growth rate induced by dietary deficiency in sulphur aminoacids decreased glycolytic metabolism in LM and increased oxidative metabolism and capacity to oxidize fatty acids in rhomboideus muscle, a mixed slow and fast-twitch oxidative muscle 20 , 39 . The current study also indicates an activation of the AMPK pathway in SM in response to hygiene degradation of pig housing conditions.…”

Poor hygiene of housing conditions influences energy metabolism in a muscle type-dependent manner in growing pigs differing in feed efficiency

Flash dietary methionine supply over growth requirements in pigs: Multi-facetted effects on skeletal muscle metabolism