PEGASE, INRAE, Institut Agro, 35590 Saint-Gilles, France.
PEGASE, INRAE, Institut Agro, 35590 Saint-Gilles, France.
Animal. 2021 Jul;15(7):100268. doi: 10.1016/j.animal.2021.100268. Epub 2021 Jun 1.
Dietary methionine affects protein metabolism, lean gain and growth performance and acts in the control of oxidative stress. When supplied in large excess relative to growth requirements in diets for pigs, positive effects on pork quality traits have been recently reported. This study aimed to decipher the molecular and biochemical mechanisms affected by a dietary methionine supply above growth requirements in the loin muscle of finishing pigs. During the last 14 days before slaughter, crossbred female pigs (n = 15 pigs/diet) were fed a diet supplemented with hydroxy-methionine (Met5; 1.1% of methionine) or not (CONT, 0.22% of methionine). Blood was sampled at slaughter to assess key metabolites. At the same time, free amino acid concentrations and expression or activity levels of genes involved in protein or energy metabolism were measured in the longissimus lumborum muscle (LM). The Met5 pigs exhibited a greater activity of creatine kinase in plasma when compared with CONT pigs. The concentrations of free methionine, alpha-aminobutyric acid, anserine, 3-methyl-histidine, lysine, and proline were greater in the LM of Met5 pigs than in CONT pigs. Expression levels of genes involved in protein synthesis, protein breakdown or autophagy were only scarcely affected by the diet. Among ubiquitin ligases, MURF1, a gene known to target creatine kinase and muscle contractile proteins, and OTUD1 coding for a deubiquitinase protease, were up-regulated in the LM of Met5 pigs. A lower activity of citrate synthase, a reduced expression level of ME1 acting in lipogenesis but a higher expression of PPARD regulating energy metabolism, were also observed in the LM of Met5 pigs compared with CONT pigs. Principal component analysis revealed that expression levels of many studied genes involved in protein and energy metabolism were correlated with meat quality traits across dietary treatments, suggesting that subtle modifications in expression of those genes had cumulative effects on the regulation of processes leading to the muscle transformation into meat. In conclusion, dietary methionine supplementation beyond nutritional requirements in pigs during the last days before slaughter modified the free amino acid profile in muscle and its redox capacities, and slightly affected molecular pathways related to protein breakdown and energy metabolism. These modifications were associated with benefits on pork quality traits.
饲粮蛋氨酸水平超过猪生长需要对猪肉品质的影响及其作用机制
当饲粮中蛋氨酸的供给量相对于猪的生长需要量大大超过时,最近有报道称其对猪肉品质特性有积极影响。本研究旨在解析在肥育猪最后 14 天饲粮蛋氨酸水平超过生长需要时,背最长肌中受影响的分子和生化机制。在屠宰前的最后 14 天,杂交母猪(n = 15 头/饲粮)分别饲喂添加羟基蛋氨酸(Met5;蛋氨酸 1.1%)或不添加(CONT,蛋氨酸 0.22%)的饲粮。屠宰时采集血液样本来评估关键代谢物。同时,在背最长肌中测量游离氨基酸浓度和参与蛋白质或能量代谢的基因的表达或活性水平。与 CONT 猪相比,Met5 猪的血浆肌酸激酶活性更高。Met5 猪的背最长肌中游离蛋氨酸、α-氨基丁酸、章鱼胺、3-甲基组氨酸、赖氨酸和脯氨酸浓度高于 CONT 猪。饲粮对参与蛋白质合成、蛋白质分解或自噬的基因表达水平的影响很小。在泛素连接酶中,已知靶向肌酸激酶和肌肉收缩蛋白的基因 MURF1 和编码去泛素化酶蛋白酶的 OTUD1 上调,Met5 猪的背最长肌中上调。柠檬酸合酶活性降低,ME1 基因(参与脂肪生成)表达水平降低,PPARD 基因(调节能量代谢)表达水平升高,也观察到 Met5 猪的背最长肌中。主成分分析表明,在不同饲粮处理中,许多参与蛋白质和能量代谢的研究基因的表达水平与肉质特性相关,这表明这些基因表达的细微变化对调节肌肉转化为肉的过程有累积效应。总之,在肥育猪最后几天的饲粮中添加超过生长需要的蛋氨酸改变了肌肉中的游离氨基酸谱及其氧化还原能力,并轻微影响了与蛋白质分解和能量代谢相关的分子途径。这些变化与猪肉品质特性的改善有关。
