Lerner A, Lee P C, Lebenthal E
Dig Dis Sci. 1986 Jan;31(1):57-64. doi: 10.1007/BF01347910.
Starving of rat pups at the 5th or 10th day of life for three days led to lower body and pancreatic weights compared to age-matched controls. When compared to the weights before fasting, only the 5-day-old pups showed increases in pancreatic protein and DNA contents despite food deprivation. Pancreatic acinar responsiveness to carbachol stimulation was not affected. Accumulations of amylase and lipase in the pancreas of the rat pups were increased by fasting, with an accompanied surge in the level of serum corticosterone. In 10-day-old rat pups, injection with aminoglutethimide (AG), a drug which suppresses steroidogenesis, prevented the enzymatic increases and concomitantly suppressed the serum total corticosterone levels at 12 and 24 hr after the onset of fasting. These results strongly support the role of corticosterone in the modulation of the pancreatic adaptation to food deprivation in the suckling rat.
在出生后第5天或第10天对幼鼠进行为期三天的饥饿处理,与年龄匹配的对照组相比,其体重和胰腺重量降低。与禁食前的体重相比,尽管食物匮乏,但只有5日龄的幼鼠胰腺蛋白质和DNA含量增加。胰腺腺泡对卡巴胆碱刺激的反应性未受影响。禁食使幼鼠胰腺中淀粉酶和脂肪酶的积累增加,同时血清皮质酮水平激增。在10日龄的幼鼠中,注射氨基谷氨酰胺(AG),一种抑制类固醇生成的药物,可在禁食开始后12小时和24小时阻止酶含量增加,并同时抑制血清总皮质酮水平。这些结果有力地支持了皮质酮在调节哺乳大鼠胰腺对食物匮乏的适应性中的作用。