Botion L M, Brito M N, Brito N A, Brito S R, Kettelhut I C, Migliorini R H
Department of Biochemistry, School of Medicine, University of São Paulo, Brazil.
Metabolism. 1998 Oct;47(10):1217-21. doi: 10.1016/s0026-0495(98)90326-2.
Triacylglycerol (TAG) synthesis from all carbon sources and from glucose carbon was evaluated in rats fed a high-protein, carbohydrate-free (HP) diet or control diet by determining simultaneously in the same animal the rate of incorporation of 3H2O and of 14C-glucose into the two TAG moieties in the carcass, liver, and retroperitoneal and epididymal adipose tissue. Incorporation rates of 3H2O into TAG-fatty acids (FAs) in the two adipose tissues and in liver were reduced in HP rats to about 20% and 50%, respectively, of the rates in control rats. In the two experimental groups, glucose was a poor precursor for FA synthesis, contributing only 22.8% of whole-body (carcass plus liver) total FA synthesis in control rats and even less (14%) in HP rats. In contrast to the reduction in FA synthesis, incorporation of 3H2O into TAG-glycerol in HP rats did not differ significantly or was even higher (in epididymal tissue) versus the control level. In all tissues of both HP and control rats, the rate of 14C-glucose incorporation into TAG-glycerol was much higher than the rate of incorporation into FA. Glyceroneogenesis, estimated by subtracting TAG-glycerol synthesis from glucose from the rate obtained with 3H2O, was significantly increased in adipose tissue from HP rats, with almost all of the glycerol formed by this route being used to esterify preformed FAs. It is suggested that the increased adipose tissue glyceroneogenesis is important for esterification of diet-derived FA and preservation of body fat stores in rats adapted to the HP diet.
通过在同一动物中同时测定3H2O和14C-葡萄糖掺入 carcass、肝脏、腹膜后和附睾脂肪组织中两个甘油三酯部分的速率,评估了喂食高蛋白、无碳水化合物(HP)饮食或对照饮食的大鼠从所有碳源和葡萄糖碳合成甘油三酯(TAG)的情况。HP大鼠的两个脂肪组织和肝脏中3H2O掺入TAG-脂肪酸(FAs)的速率分别降至对照大鼠的约20%和50%。在两个实验组中,葡萄糖是脂肪酸合成的不良前体,在对照大鼠中仅占全身( carcass加肝脏)总脂肪酸合成的22.8%,在HP大鼠中甚至更低(14%)。与脂肪酸合成减少相反,HP大鼠中3H2O掺入TAG-甘油的情况与对照水平相比无显著差异,甚至更高(在附睾组织中)。在HP和对照大鼠的所有组织中,14C-葡萄糖掺入TAG-甘油的速率远高于掺入脂肪酸的速率。通过从3H2O获得的速率中减去葡萄糖合成TAG-甘油的量来估计的甘油新生在HP大鼠的脂肪组织中显著增加,通过该途径形成的几乎所有甘油都用于酯化预先形成的脂肪酸。有人认为,脂肪组织甘油新生增加对于适应HP饮食的大鼠中饮食来源脂肪酸的酯化和身体脂肪储存的保存很重要。
