Sauer L A, Dauchy R T
Cancer Res. 1983 Aug;43(8):3497-503.
Arteriovenous differences for acetoacetate, beta-hydroxybutyrate, glucose, lactic acid, and glutamine and other amino acids were measured across Morris hepatomas 5123C, 7777, and 7288CTCF and Walker sarcocarcinoma 256 in vivo in rats fasted for 2 days. The acetoacetate and beta-hydroxybutyrate concentrations in arterial whole blood of fasted tumor-bearing rats were 0.52 +/- 0.06 and 1.82 +/- 0.19 mM (S.E., n = 38), respectively. Both ketone bodies were utilized by the tumors, and the rates of utilization were directly related to the rates of supply. The mean utilization rates for acetoacetate and beta-hydroxybutyrate were 13.9 +/- 2.9 (range, 0 to 64; n = 30) and 24.7 +/- 4.4 (range, 0 to 145; n = 38) nmol/min/g tumor wet weight, respectively. Eight of the tumors produced acetoacetate, presumably from utilized beta-hydroxybutyrate. An average of 52% of the acetoacetate and 30% of the beta-hydroxybutyrate carried in the arterial blood was removed during one pass through the tumors. The concentrations of glucose and glutamine in the arterial whole blood of fasted tumor-bearing rats (n = 38) were 6.55 +/- 0.3 and 0.76 +/- 0.02 mM, respectively; both of these substrates were utilized at rates that were directly proportional to the rates of supply. The mean rates of glucose and glutamine utilization for all tumors in fasted rats were 101 +/- 11 (range, 3 to 313) and 8.2 +/- 1.1 (range, 0 to 25.1) nmol/min/g tumor wet weight, respectively. Thirty-six % of the glucose and 25% of the glutamine supplied to the tumors was utilized. Comparison (by linear regression and analysis of covariance) of the rates of supply and utilization of glucose and glutamine in tumors growing in fasted versus fed rats indicated that these substrates are utilized more efficiently by tumors growing in fasted animals. Lactic acid was either produced or utilized, depending on the arterial whole-blood concentration. Production or utilization occurred, respectively, when the arterial lactate concentration was less or greater than 1 to 3 mM. The arterial whole-blood amino acids (except glutamine) were utilized at rates that ranged from 1 to 4 nmol/min/g tumor wet weight. The results indicate that energy production for tumor growth in fasted rats is supported, in part, by an increased availability of ketone bodies, by an increased efficiency of utilization of glucose and glutamine, and, under certain circumstances, by utilization of lactic acid.
在禁食2天的大鼠体内,测定了莫氏肝癌5123C、7777和7288CTCF以及沃克肉瘤256中乙酰乙酸、β-羟基丁酸、葡萄糖、乳酸、谷氨酰胺和其他氨基酸的动静脉差异。禁食的荷瘤大鼠动脉全血中乙酰乙酸和β-羟基丁酸的浓度分别为0.52±0.06和1.82±0.19 mM(标准误,n = 38)。两种酮体均被肿瘤利用,其利用率与供应率直接相关。乙酰乙酸和β-羟基丁酸的平均利用率分别为13.9±2.9(范围为0至64;n = 30)和24.7±4.4(范围为0至145;n = 38)nmol/min/g肿瘤湿重。其中8个肿瘤产生乙酰乙酸,推测是由利用的β-羟基丁酸转化而来。动脉血中携带的乙酰乙酸和β-羟基丁酸在单次通过肿瘤时平均分别有52%和30%被清除。禁食的荷瘤大鼠(n = 38)动脉全血中葡萄糖和谷氨酰胺的浓度分别为6.55±0.3和0.76±0.02 mM;这两种底物的利用速率均与供应速率成正比。禁食大鼠中所有肿瘤的葡萄糖和谷氨酰胺平均利用率分别为101±11(范围为3至31)和8.2±1.1(范围为0至25.1)nmol/min/g肿瘤湿重。供应给肿瘤的葡萄糖和谷氨酰胺分别有36%和25%被利用。通过线性回归和协方差分析比较禁食与进食大鼠体内生长的肿瘤中葡萄糖和谷氨酰胺的供应率和利用率,结果表明禁食动物体内生长的肿瘤对这些底物的利用效率更高。乳酸的产生或利用取决于动脉全血浓度。当动脉乳酸浓度低于或高于1至3 mM时,分别会发生乳酸的产生或利用。动脉全血中的氨基酸(谷氨酰胺除外)的利用速率范围为1至4 nmol/min/g肿瘤湿重。结果表明,禁食大鼠体内肿瘤生长的能量产生部分由酮体可用性增加支持,由葡萄糖和谷氨酰胺利用效率提高支持,并且在某些情况下由乳酸的利用支持。
