Mares-Perlman J A, Shrago E
Department of Nutritional Sciences, University of Wisconsin, Madison 53706.
Cancer Res. 1988 Feb 1;48(3):602-8.
Freshly isolated Morris Hepatoma 7777 cells were prepared for a study of the utilization of palmitate and beta-hydroxybutyrate as metabolic fuels compared to other major energy substrates (glucose and glutamine). These cells were capable of oxidizing both [U-14C]palmitate and beta-[3-14C]hydroxybutyrate although the rates accounted for only 10 +/- 3 (SD) and 9 +/- 4% of total oxygen consumed, respectively; n = 4. Incorporation of [U-14C]glutamine and [U-14C]glucose carbon into 14CO2 made up for 38 +/- 13 and 9 +/- 2% of oxygen consumed by these cells, respectively. The conversion of glucose carbon into lactate was estimated to supply 26 +/- 6% of ATP. Thus, glutamine oxidation and lactate formation from glucose were the major contributors to estimated ATP needs. Conversion of these substrates into lipids was also studied and compared with oxidized products. Incorporation of glucose, glutamine, and beta-hydroxybutyrate into nonsaponifiable lipids and fatty acids was only 6.0 +/- 2.9, 0.8 +/- 0.2 and 17.7 +/- 6.65% (n = 3) of their respective rates of CO2 formation. This suggests that in freshly isolated Morris Hepatoma 7777 cells, citrate export from the mitochondria for cholesterogenesis and lipogenesis is a minor fate of substrate carbon entering the mitochondria for oxidation.
制备新鲜分离的莫里斯肝癌7777细胞,以研究与其他主要能量底物(葡萄糖和谷氨酰胺)相比,棕榈酸酯和β-羟基丁酸酯作为代谢燃料的利用情况。这些细胞能够氧化[U-14C]棕榈酸酯和β-[3-14C]羟基丁酸酯,尽管其速率分别仅占总耗氧量的10±3(标准差)和9±4%;n = 4。[U-14C]谷氨酰胺和[U-14C]葡萄糖碳转化为14CO2分别占这些细胞耗氧量的38±13和9±2%。据估计,葡萄糖碳转化为乳酸可提供26±6%的ATP。因此,谷氨酰胺氧化和葡萄糖生成乳酸是估计的ATP需求的主要贡献者。还研究了这些底物转化为脂质的情况,并与氧化产物进行了比较。葡萄糖、谷氨酰胺和β-羟基丁酸酯掺入不可皂化脂质和脂肪酸中的量分别仅为其各自CO2生成速率的6.0±2.9、0.8±0.2和17.7±6.65%(n = 3)。这表明,在新鲜分离的莫里斯肝癌7777细胞中,从线粒体输出用于胆固醇生成和脂肪生成的柠檬酸,只是进入线粒体进行氧化的底物碳的次要去向。
