David A. Sevdalian scite author profile

Human diploid fibroblasts metabolize up to 13% of the glutamine in tissue culture medium to lactate. Four microCi of glutamine-U-14C were added to media containing 5 mM or 65 microM glucose or medium containing no added glucose, but supplemented with purine and pyrimidine nucleosides (HGTU). Aliquots of the media were taken at daily intervals and were assayed for glucose, lactate, pyruvate, malate, citrate, aspartate, glutamine, and glutamate. The label incorporation into these compounds was determined, except for glutamine and glucose. The distribution of label from glutamine-U14C in 5 mM glucose medium by day 4 was lactate (10.2%), glutamate (15.2%), citrate (1.9%), pyruvate (2.0%), malate (1.1%), and aspartate (< 0.1%). The accumulation of label in lactate and glutamate occurred continuously during the growth cycle. Malate, citrate, and aspartate accumulation occurred primarily in confluent cultures. The label in aspartate was seen only in stationary phase cells or when the glucose concentration was decreased to 65 microM or less; net aspartate accumulation was increased twofold in low glucose media. These data demonstrate an actively functioning pathway for the conversion of 4-carbon TCA-cycle intermediates to 3-carbon glycolytic intermediates in human diploid fibroblasts.

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Growth of human diploid fibroblasts in the absence of glucose utilization.

Zielke¹,

Özand²,

Tildón³

et al. 1976

Proc. Natl. Acad. Sci. U.S.A.

101

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Normal human diploid fibroblasts were able to undergo one to two cell divisions without glucose utilization in Eagle's minimum essential medium plus 10% dialyzed fetal calf serum if the medium was supplemented with hypoxanthine, thymidine, and uridine (supplemented medium termed HTU-MEM). Under these conditions, the added purine and pyrimidines were required for nucleic acid synthesis, as shown by the inability of Lesch-Nyhan fibroblasts to grow in HTU-MEM. Normal human diploid fibroblasts continued to produce lactate in HTU-MEM, but at a greatly reduced rate. Since cells grew in HTU-MEM without glucose utilization, the probable energy and carbon source was glutamine, which is present in relatively high concentration. Furthermore, the rate of glutamine utilization per cell division was 2-fold greater in HTU-MEM than in me sum with 5.5 mM glucose. These results suggest that glutamine can be a major energy source for cells grown in vitro.

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CoA transferase in the brain and other mammalian tissues

Tildón

Sevdalian

1972

Archives of Biochemistry and Biophysics

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Reciprocal regulation of glucose and glutamine utilization by cultured human diploid fibroblasts

Zielke

Özand

Tildón

et al. 1978

Journal Cellular Physiology

255

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Human diploid fibroblasts utilize both glucose and glutamine as energy sources. The utilization of glutamine by fibroblasts is regulated by glucose, and vice versa. This conclusion is supported by the following observations: (1) essentially identical growth rates were observed in Eagle's minimum essential medium (MEM)3 in which the glucose concentration was either 5.5 mM or was maintained between 25 and 40 micrometer, (2) the total glutamine utilization by fibroblasts increase at least 30% in medium with 25 micrometer to 70 micrometer glucose compared to medium with 5.5 mM glucose, while the rate of glutamine-1 or 5-14C oxidation to CO2 increased 5-fold as the glucose concentration was decreased to zero, (3) 2 mM glutamine inhibited glucose-6-14C oxidation by 88% and stimulated glucose-1-14C by 77% in log phase cells and (4) glutamine oxidation in normal medium contributed approximately 30% of the energy requirement of human diploid fibroblasts.

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