Vicini J L, Buonomo F C, Veenhuizen J J, Miller M A, Clemmons D R, Collier R J
Monsanto Company, Animal Sciences Division, St. Louis, MO 63198.
J Nutr. 1991 Oct;121(10):1656-64. doi: 10.1093/jn/121.10.1656.
Six Holstein cows were used in a complete block design to examine effects of period of lactation and somatotropin (bST) administration on concentrations of insulin, insulin-like growth factors (IGF-I, IGF-II), and IGF-binding protein 2 (IGFBP-2). During late lactation, the dry period and the subsequent early lactation, cows received injections of NaHCO3 buffer for 5 d and bST for 7 d. Cows were in positive energy and protein balances during late lactation and the dry period and in slight negative balances during early lactation. Basal insulin concentrations were highest in late lactation (170 pmol/L), whereas bST concentrations were higher in early lactation (0.6 micrograms/L). Insulin was increased by bST in the dry period (255 pmol/L) and late lactation (149 pmol/L) but not in early lactation (14 pmol/L), probably because of greater availability of glucose during positive nutrient balance. Basal IGF-I was lowest in early lactation (63.6 micrograms/L) but was increased by bST during all periods. The IGF-I response to bST administration was lower during early lactation (74.1 micrograms/L) compared with late lactation (123.6 micrograms/L) and dry period (146.0 micrograms/L). The IGF-II concentrations were not affected by period of lactation of bST administration but IGF-II tended to be higher during bST administration when cows were dry. Concentration of IGFBP-2 was higher during early lactation when cows were in negative nutrient balance (479.5 micrograms/L) than during the dry period (289.2 micrograms/L) and was decreased with bST. These data support a role of insulin and IGF in regulation of milk production. Availability of nutrients may be involved in regulating these hormones, particularly during bST treatment.
选用6头荷斯坦奶牛,采用完全区组设计,研究泌乳期和生长激素(bST)给药对胰岛素、胰岛素样生长因子(IGF-I、IGF-II)和IGF结合蛋白2(IGFBP-2)浓度的影响。在泌乳后期、干奶期及随后的泌乳早期,奶牛接受5天的NaHCO3缓冲液注射和7天的bST注射。奶牛在泌乳后期和干奶期处于能量和蛋白质正平衡状态,而在泌乳早期处于轻微负平衡状态。基础胰岛素浓度在泌乳后期最高(170 pmol/L),而bST浓度在泌乳早期较高(0.6微克/升)。bST使干奶期(255 pmol/L)和泌乳后期(149 pmol/L)的胰岛素水平升高,但在泌乳早期(14 pmol/L)未升高,这可能是由于营养正平衡期间葡萄糖的可用性更高。基础IGF-I在泌乳早期最低(63.6微克/升),但在所有时期均被bST升高。与泌乳后期(123.6微克/升)和干奶期(146.0微克/升)相比,泌乳早期bST给药后IGF-I的反应较低(74.1微克/升)。IGF-II浓度不受泌乳期或bST给药的影响,但在奶牛干奶期接受bST给药时,IGF-II往往更高。当奶牛处于营养负平衡的泌乳早期时,IGFBP-2的浓度(479.5微克/升)高于干奶期(289.2微克/升),且bST可使其降低。这些数据支持胰岛素和IGF在调节产奶量中的作用。营养物质的可用性可能参与调节这些激素,尤其是在bST治疗期间。
