Facultad de Medicina Veterinaria y Zootecnia, Universidad Veracruzana, Veracruz 91710, Mexico.
Department of Animal Science, Ohio Agricultural Research and Development Center (OARDC), The Ohio State University, Wooster, OH 44691, USA.
J Anim Sci. 2022 Apr 1;100(4). doi: 10.1093/jas/skac032.
The objective of the present experiment was to evaluate the effect of maternal supplementation with fatty acids (FAs) and methionine (Met) during late gestation on offspring growth, energy metabolism, plasma resolvin (RvD1) concentration, carcass characteristics, and hepatic mRNA expression. Ewes (5 pens/treatment; 3 ewes/pen) blocked by body weight (BW) were assigned to one of four treatments from day 100 of gestation until lambing. The treatments were: basal diet (NS) without FAs or Met supplementation; FA supplementation (FS; 1.01 % of Ca salts, containing n-3 FA); Met supplementation (MS; 0.1 % of rumen-protected methionine); and FS and MS (FS-MS). At birth (day 0), ewes and lambs were placed in a common pen. On day 60, lambs were weaned, sorted by sex, blocked by BW, and placed on a common finishing diet for 54 d (FP). A lamb per pen was used for a glucose tolerance test (GTT) after the FP. Carcass characteristics were recorded on day 56. Lamb data were analyzed as a randomized complete block design with a 2 × 2 × 2 factorial arrangement, with repeated measurements when needed (SAS 9.4). At weaning, lambs born to MS- or FS-fed ewes were heavier than lambs born from FS-MS ewes (FS × MS × Time; P = 0.02). A marginal significant FS × MS interaction (P = 0.09) was also observed on RvD1; lambs born to ewes in the NS and FS-MS treatments showed a lower RvD1 plasma concentration when compared with lambs born to FS- or MS-fed ewes. Lambs born to dams fed FA showed an increase (P = 0.05) in liver COX-2 mRNA relative expression. Lambs born to ewes supplemented with Met showed an increase (P = 0.03) in liver FABP4 mRNA expression. An FS × MS × Time interaction (P = 0.07) was observed in plasma glucose during the GTT; lambs born from FS-fed ewes showed lower plasma glucose concentration than lambs born to Met-supplemented ewes at 2 min after bolus administration. During the GTT, a marginal significant effect (P = 0.06) was observed for the lamb average insulin concentration due to maternal Met supplementation during late gestation, where these lambs had the lowest plasma concentration. Contrary to our hypothesis, the interaction of FA and Met supplementation during late gestation did not show a greater positive effect on offspring postnatal growth and metabolism. However, the individual supplementation of each nutrient has an effect on offspring development with a concomitant change in markers involved in the inflammatory response and energy metabolism.
本实验的目的是评估妊娠晚期母体补充脂肪酸 (FA) 和蛋氨酸 (Met) 对后代生长、能量代谢、血浆 resolvin (RvD1) 浓度、胴体特性和肝 mRNA 表达的影响。从妊娠第 100 天到分娩,根据体重 (BW) 将 5 个羊圈/处理组 (每组 3 只羊) 分成 4 种处理之一。处理方法如下:基础日粮 (NS) 不添加 FA 或 Met;FA 补充 (FS;含有 n-3 FA 的 1.01% Ca 盐);Met 补充 (MS;0.1% 保护性蛋氨酸);FS 和 MS (FS-MS)。在出生时 (第 0 天),母羊和羔羊被放在一个共同的围栏中。在第 60 天,羔羊断奶,按性别分类,按 BW 分组,然后放在一个共同的育肥日粮上 54 天 (FP)。在 FP 后,每圈选择一只羔羊进行葡萄糖耐量试验 (GTT)。在第 56 天记录胴体特性。羔羊数据采用随机完全区组设计进行分析,需要时进行重复测量 (SAS 9.4)。在断奶时,MS 或 FS 喂养的母羊所生的羔羊比 FS-MS 喂养的母羊所生的羔羊更重 (FS × MS × Time;P = 0.02)。FS × MS 交互作用 (P = 0.09) 也观察到 RvD1 略有显著;与 FS 或 MS 喂养的母羊所生的羔羊相比,NS 和 FS-MS 处理的母羊所生的羔羊的 RvD1 血浆浓度较低。饲喂 FA 的母羊所生的羔羊肝 COX-2 mRNA 相对表达量增加 (P = 0.05)。饲喂 Met 的母羊所生的羔羊肝 FABP4 mRNA 表达增加 (P = 0.03)。在 GTT 期间观察到 FS × MS × Time 交互作用 (P = 0.07);在注射后 2 分钟,FS 喂养的母羊所生的羔羊的血浆葡萄糖浓度低于 Met 补充的母羊所生的羔羊。在 GTT 期间,由于妊娠晚期母体 Met 补充,羔羊平均胰岛素浓度出现边际显著影响 (P = 0.06),这些羔羊的血浆浓度最低。与我们的假设相反,妊娠晚期 FA 和 Met 补充的相互作用并没有对后代产后生长和代谢产生更大的积极影响。然而,每种营养素的单独补充对后代的发育有影响,并伴有参与炎症反应和能量代谢的标志物的变化。
