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Evidence suggesting that the elevated plasma triiodothyronine concentration of rats fed on protein deficient diets is physiologically active

Published online by Cambridge University Press:  07 March 2008

Ana Lydia Sawaya
Affiliation:
Dunn Nutritional Laboratory, Downham's Lane, Milton Road, CambridgeCB4 1XJ
P. G. Lunn
Affiliation:
Dunn Nutritional Laboratory, Downham's Lane, Milton Road, CambridgeCB4 1XJ
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Abstract

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1. Some metabolic indicators of thyroid hormone activity have been investigated in rats fed on either protein-deficient or energy-restricted diets.

2. Rats were divided into three groups. Control animals were maintained on a diet of protein energy: total energy (P:E) value of 0.20, while the low-protein group (LP) were allowed ad lib. access to food of P:E 0.03. Energy-restricted (ER) rats were given limited amounts of a control diet (P:E 0.20) such that their rate of growth matched that of LP animals.

3. Animals fed on the LP diet had elevated plasma concentrations of both total and free triiodothyronine (T3)concentrations whereas those on the ER regimen showed values below those of controls.

4. The activities of mitochondria1 α-glycerol-3-phosphate dehydrogenase (EC 1. 1.99.5) and of the αglycerol-3-phosphate shuttle system were elevated in the liver of LP rats, but malate-aspartate shuttle operation was reduced. All three activities were reduced in ER animals.

5. Cytochrome c oxidase (EC 1.9.3.1) activity of brown adipose tissue indicated a high rate of thermogenic activity in this tissue in LP rats, but ER animals showed some evidence of below normal function.

6. The results indicate that both the raised plasma T3 of LP rats and the reduced levels observed in ER animals are physiologically significant.

Type
Papers on General Nutrition
Copyright
Copyright © The Nutrition Society 1985

References

REFERENCES

Coward, W. A., Whitehead, R. G. & Lunn, P. G. (1977). British Journal of Nutrition 38, 115126.CrossRefGoogle Scholar
Cox, M. D., Dalal, S. S. & Heard, C. P. C. (1980). Proceedings of the Nutrition Society 40, 39A.Google Scholar
Gurr, M. I., Mawson, R., Rothwell, N. J. & Stock, M. J. (1980). Journal of Nutrition 110, 532542.CrossRefGoogle Scholar
Johnson, D. & Lardy, H. (1967). In Methods in Enzymology, vol. 10, pp. 9496 [Estabrook, R. W., editor]. New York: Academic Press.Google Scholar
Lamartiniere, G. A. & Weiss, G. (1974). Hoppe-Seyler's Zeitschrift fur Physiologische Chemie 355, 15491554.CrossRefGoogle Scholar
Lee, Y. P. & Lardy, H. A. (1965). Journal of Biological Chemistry 240, 14271436.CrossRefGoogle Scholar
Lunn, P. G. & Austin, S. (1983 a). Journal of Nutrition 113, 17911802.CrossRefGoogle Scholar
Lunn, P. G. & Austin, S. (1983 b). British Journal of Nutrition 49, 915.CrossRefGoogle Scholar
Lunn, P. G., Whitehead, R. G. & Baker, B. A. (1976). British Journal of Nutrition 36, 219230.CrossRefGoogle Scholar
Peavy, D. E., Taylor, J. M. & Jefferson, L. S. (1981 a). American journal of physiology 240, E18E23.Google Scholar
Peavy, D. E., Taylor, J. M. & Jefferson, L. S. (1981 b). Biochemical Journal 198, 289299.CrossRefGoogle Scholar
Rothwell, N. J. & Stock, M. J. (1980). Pflugers Archives 389, 237272.CrossRefGoogle Scholar
Rothwell, N. J., Stock, M. J. & Tyzbir, R. S. (1982). Journal of Nutrition 112, 16631672.CrossRefGoogle Scholar
Rothwell, N. J., Stock, M. J. & Tyzbir, R. S. (1983). Metabolism 32, 257261.CrossRefGoogle Scholar
Smallridge, R. G., Glass, A. R., Wartofsky, L., Latham, K. R. & Burman, K. D. (1982). Metabolism 31, 538542.CrossRefGoogle Scholar
Stirling, J. L. & Stock, M. J. (1968). Nature 220, 801802.CrossRefGoogle Scholar
Tulp, O. L., Krupp, P. P., Danforth, E. Jr & Horton, E. S. (1979). Journal of Nutrition 109, 13211332.CrossRefGoogle Scholar
Tyzbir, R. S., Kunin, A. S., Sims, N. M. & Danforth, E. Jr (1981). Journal of Nutrition 111, 252259.CrossRefGoogle Scholar
Yonetani, T. & Ray, G. S. (1965). Journal of Biological Chemistry 240, 33923398.CrossRefGoogle Scholar