Wallace J M, Aitken R P, Cheyne M A
Rowett Research Institute, Bucksburn, Aberdeen, UK.
J Reprod Fertil. 1996 Jul;107(2):183-90. doi: 10.1530/jrf.0.1070183.
A highly controlled model to investigate nutrient partitioning and the control of fetal growth in the rapidly growing adolescent sheep is described. Embryos recovered from superovulated adult ewes inseminated by a single sire were transferred in singleton to the uterus of prepubertal adolescent recipients induced to ovulate at 21 weeks of age (liveweight 44.4 +/- 0.38 kg). After embryo transfer, the adolescent recipients were individually offered a high (n = 28) or low (n = 20) quantity of a complete diet calculated to achieve rapid (RMG) or normal (NMG) maternal growth rates. After day 100 of gestation the feed intake of the NMG group was adjusted weekly to meet the increasing nutrient demands of the gravid uterus. The proportion of adolescent recipients initially conceiving was significantly (P < 0.01) influenced by maternal nutrient intake and was lower in the RMG (0.57) than in the NMG (0.85) group. For adolescent dams that maintained their pregnancies, liveweight gain during the first 95 days of gestation was significantly (P < 0.001) higher in the RMG compared with the NMG group (234 +/- 9.5 and 75 +/- 5.0 g day-1, respectively). Rapid maternal growth rates were associated with a significant reduction in both fetal and placental weights as determined when the animals were killed on day 95 of gestation (n = 3 per group) or at term. For the RMG (n = 8) and NMG (n = 11) groups, respectively, mean lamb birthweights at term were 2.74 +/- 0.25 and 4.34 +/- 0.27 kg (P < 0.001), while term placental weights were 263 +/- 16.8 and 438 +/- 44.6 g (P < 0.002). The number of fetal cotyledons per placenta and mean fetal cotyledon weight were significantly lower in RMG compared with NMG ewes (P < 0.05). Irrespective of treatment group, lamb birthweight was highly positively correlated with placental weight and both parameters were negatively correlated with maternal liveweight gain during the first 100 days of gestation. The incidence of non-infectious spontaneous abortion at 125 +/- 1.3 days of gestation was higher (P < 0.001) in the RMG (4 of 12) than in the NMG (1 of 12) group. Similarly, duration of gestation for those ewes delivering live young was shorter (P < 0.01) in the RMG compared with the NMG group (140 +/- 0.94 versus 143 +/- 0.28 days). Colostrum yield at parturition was positively related to placental weight and significantly lower (P < 0.001) in the RMG than in the NMG group (35 +/- 12.1 and 247 +/- 36.2 g, respectively). Neonatal survival rates at 72 h after parturition were reduced (P < 0.05) in the RMG (38%) compared with the NMG group (91%). These data suggest that in rapidly growing adolescent ewes, the established anabolic drive to maternal tissue synthesis is maintained at the expense of the gradually evolving nutrient requirements of the gravid uterus. This results in a major restriction in placental growth and a highly significant decrease in birthweight.
本文描述了一种高度可控的模型,用于研究快速生长的青春期绵羊的营养分配和胎儿生长控制。从经单头公羊授精的超排成年母羊体内回收的胚胎,单胎移植到21周龄(体重44.4±0.38kg)诱导排卵的青春期前受体母羊子宫内。胚胎移植后,分别给青春期受体母羊提供高量(n = 28)或低量(n = 20)的全价日粮,以实现快速(RMG)或正常(NMG)的母体生长率。妊娠100天后,每周调整NMG组的采食量,以满足妊娠子宫不断增加的营养需求。母体营养摄入对青春期受体母羊最初受孕比例有显著(P < 0.01)影响,RMG组(0.57)低于NMG组(0.85)。对于维持妊娠的青春期母羊,妊娠前95天的体重增加,RMG组显著(P < 0.001)高于NMG组(分别为234±9.5和75±5.0g/天)。当在妊娠95天(每组n = 3)或足月时处死动物时,母体快速生长率与胎儿和胎盘重量的显著降低有关。RMG组(n = 8)和NMG组(n = 11)足月时的平均羔羊出生体重分别为2.74±0.25和4.34±0.27kg(P < 0.001),足月时的胎盘重量分别为263±16.8和438±44.6g(P < 0.002)。与NMG母羊相比,RMG母羊每个胎盘的胎儿子叶数量和平均胎儿子叶重量显著降低(P < 0.05)。无论治疗组如何,羔羊出生体重与胎盘重量高度正相关,且这两个参数与妊娠前100天母体体重增加呈负相关。妊娠125±1.3天时,RMG组(12只中有4只)非感染性自然流产的发生率高于NMG组(12只中有1只)(P < 0.001)。同样,与NMG组相比,RMG组分娩活仔的母羊妊娠持续时间较短(P < 0.01)(分别为140±0.94天和143±0.28天)。分娩时的初乳产量与胎盘重量呈正相关,RMG组显著低于NMG组(分别为35±12.1和247±36.2g)(P < 0.001)。分娩后72小时,RMG组(38%)的新生羔羊存活率低于NMG组(91%)(P < 0.05)。这些数据表明,在快速生长的青春期母羊中,既定的母体组织合成合成代谢驱动力得以维持,但以妊娠子宫逐渐变化的营养需求为代价。这导致胎盘生长受到重大限制,出生体重显著降低。
