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Increased CTP synthetase activity in cancer cells

Nature volume 271pages 71–73 (1978)Cite this article

Abstract

AN insight into the biochemical strategy of cancer cells has been achieved by the conceptual and experimental approach provided by the molecular correlation concept1,2. Studies carried out using this approach with model systems of rat hepatomas and kidney tumours of different growth rates revealed a biochemical imbalance in cancer cells, which manifested itself in progressive changes in activities of key enzymes and overall metabolic pathways that correlated with tumour growth rate1,2. Some of these biochemical alterations have been shown to apply to human primary liver3 and kidney4 carcinomas. Those alterations in gene expression that are linked to the increase in the expression of malignancy are manifested in the increased activities of key glycolytic-, purine-, pyrimidine-, DNA- and polyamine-synthesising enzymes1–8. Concurrently, decreases occur in the activities of the key enzymes of gluconeogenesis, purine and pyrimidine catabolism and of the urea cycle1–5,9,10. In addition to such a progression-linked (growth-rate-linked) metabolic imbalance, the reprogramming of gene expression in cancer cells entails transformation-linked alterations that are present in all hepatomas irrespective of growth rate or extent of differentiation1,2,11–15.Here we report that CTP synthetase (UTP:L-glutamine amido ligase, EC 6.3.4.2) increased in all the hepatomas examined, the activity being highest in the rapidly growing tumours. Thus, in liver neoplasia the activity of this enzyme is both transformation- and progression-linked. CTP synthetase activity was also markedly increased in transplantable kidney tumours in the rat and in primary renal cell carcinomas in man.

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Authors and Affiliations

  1. Laboratory for Experimental Oncology, Indiana University School of Medicine, Indianapolis, Indiana, 46202

    JIM C. WILLIAMS, HARUTOSHI KIZAKI & GEORGE WEBER

  2. Department of Biochemistry, Howard University College of Medicine, Washington, DC, 20001

    HAROLD P. MORRIS

Authors
  1. JIM C. WILLIAMS
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  2. HARUTOSHI KIZAKI
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  3. GEORGE WEBER
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  4. HAROLD P. MORRIS
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WILLIAMS, J., KIZAKI, H., WEBER, G. et al. Increased CTP synthetase activity in cancer cells. Nature 271, 71–73 (1978). https://doi.org/10.1038/271071a0

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