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Influence of diet on the development and regulation of lipogenic enzymes in adipose tissue

Published online by Cambridge University Press:  28 February 2007

Dominique Perdereaul ,
Fabienne Foufelle ,
Betty Gouhot ,
Pascal Ferre  and
Jean Girard
Dominique Perdereaul
Affiliation:
Centre de Recherches sur l'Endocrinologie Moléculaire et le Développement, CNRS, 92190 Meudon-Bellevue, France
Fabienne Foufelle
Affiliation:
Unité 342 INSERM, Hôpital Saint Vincent de Paul, 75014 Paris, France
Betty Gouhot
Affiliation:
Centre de Recherches sur l'Endocrinologie Moléculaire et le Développement, CNRS, 92190 Meudon-Bellevue, France
Pascal Ferre
Affiliation:
Unité 342 INSERM, Hôpital Saint Vincent de Paul, 75014 Paris, France
Jean Girard
Affiliation:
Centre de Recherches sur l'Endocrinologie Moléculaire et le Développement, CNRS, 92190 Meudon-Bellevue, France
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Abstract

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Type
Symposium on ‘The manipulation of adiposity’
Information
Proceedings of the Nutrition Society , Volume 51 , Issue 3 , December 1992 , pp. 387 - 395
Copyright
Copyright © The Nutrition Society 1992

References

REFERENCES

Bai, D. H., Pape, M. E., Lopez-Casillas, F., Luo, X. C., Dixon, J. E. & Kim, K. H. (1986). Molecular cloning of cDNA for acetyl-CoA carboxylase. Journal of Biological Chemistry 261, 1239512399.Google Scholar
Ballard, F. J., Hanson, R. W. & Leveille, G. A. (1967). Phosphoenolpyruvate carboxykinase and the synthesis of glyceride-glycerol from pyruvate in adipose tissue. Journal of Biological Chemistry 242, 27462750.Google Scholar
Chanez, M., Bois-Joyeux, B., Arnaud, M. J. & Peret, J. (1991). Metabolic effects in rats of a diet with a moderate level of medium-chain triglycerides. Journal of Nutrition 121, 585594.Google Scholar
Clarke, S. D., Armstrong, M. K. & Jump, D. B. (1990). Dietary polyunsaturated fats uniquely suppress rat liver fatty acid synthase and S14 messenger RNA content. Journal of Nutrition 120, 225231.Google Scholar
Clarke, S. D., Romsos, D. R. & Leveille, G. A. (1977). Differential effects of dietary methyl esters of long-chain saturated and polyunsaturated fatty acids on rat liver and adipose tissue lipogenesis. Journal of Nutrition 107, 11701181.CrossRefGoogle ScholarPubMed
Coupé, C., Perdereau, D., Ferré, P., Hitier, Y., Narkewicz, M. & Girard, J. (1990). Lipogenic enzyme activities and mRNA in rat adipose tissue during weaning: role of the diet. American Journal of Physiology 258, E126E133.Google Scholar
Cryer, A. (1982). The growth and metabolism of developing white adipose tissue. In The Biochemical Development the Fetus and Neonate, pp. 731758 [Jones, C. T., editor]. Amsterdam: Elsevier.Google Scholar
Elshourbagy, N. A., Near, J. C., Kmetz, P. J., Sathe, G. M., Southan, C., Strickler, J. E., Gross, M., Young, J. F., Wells, T. N. C. & Groot, P. H. E. (1990). Rat ATP citrate-lyase. Molecular cloning and sequence analysis of a full-length cDNA and messenger RNA abundance as a function of diet, organ, and age. Journal of Biological Chemistry 265, 14301435.CrossRefGoogle ScholarPubMed
Foufelle, F., Gouhot, B., Pegorier, J-P., Perdereau, D., Girard, J. & Ferré, P. (1992 a). Glucose stimulation of lipogenic enzyme gene expression in cultured white adipose tissue: a role for glucose-6-phosphate. Journal of Eiological Chemistry 267 (In the Press).Google ScholarPubMed
Foufelle, F., Perdereau, D., Gouhot, B., Ferrt, P. & Girard, J. (1992 b). Effects of diets rich in medium and long chain triglycerides on lipogenic enzyme gene expression in liver and adipose tissue of the weaned rat. European Journal of Biochemistry 208, 381387.Google Scholar
Gandemer, G., Pascal, G. & Durand, G. (1982). In vivo changes in the rates of total lipid and fatty acid synthesis in liver and white adipose tissues of male rats during post-weaning growth. International Journal of Biochemistry 14,797804.Google Scholar
Girard, J. R., Ferrk, P., Kervran, A., Pégorier, J. P. & Assan, R. (1977). In Glucagon: Its Role in Physiology and Clinical Medicine, pp. 563581 [Foa, P. P., Bajaj, J. S. and Foa, N. L., editors]. New York: Springer-VerlagCrossRefGoogle Scholar
Greenwood, M. R. C. & Hirsch, J. (1984). Postnatal development of adipocyte cellularity in the normal rat. Journal of Lipid Research 15, 474483.Google Scholar
Goodridge, A. G. (1987). Dietary regulation of gene expression: enzymes involved in carbohydrate and lipid metabolism. Annual Review of Nutrition 7, 157185.Google Scholar
Hahn, P. (1970). Fatty-acid synthesis in brown and white adipose tissue and liver of the rat during development. Physiological Bohemoslovaka 19, 369373.Google Scholar
Hahn, P. & Novak, M. (1975). Development of brown and white adipose tissue. Journal of Lipid Research 16, 7991.CrossRefGoogle ScholarPubMed
Hawkins, R. A., Alberti, K. G. M. M., Houghton, C. R. S., Williamson, D. H. & Krebs, H. A. (1971). The effect of acetoacetate on plasma insulin concentration. Biochemical Journal 125, 541544.CrossRefGoogle ScholarPubMed
Henning, S. J. (1978). Plasma concentration of total and free corticosterone during development in the rat. American Journal of Physiology 235, E451E456.Google Scholar
Henning, S. J. (1981). Postnatal development: coordination of feeding, digestion, and metabolism. American Journal of Physiology 241, G199G214.Google Scholar
Henning, S. J., Chang, S. S. P. & Gisel, E. G. (1979). Ontageny of feeding controls in suckling and weanling rats. American Journal of Physiology 237, R187R191.Google Scholar
Hopgood, M. F., Ballard, F. J., Reshef, L. & Hanson, R. W. (1973). Synthesis and degradation of phosphoenolpyruvate carboxykinase in rat liver and adipose tissue. Changes during a starvation-refeeding cycle. Biochemical Journal 134, 445453.Google Scholar
Issad, T., Coupé, C., Pastor-Anglada, M., Ferré, P. & Girard, J. (1988). Development of insulin-sensitivity at weaning in the rat. Role of the nutritional transition. Biochemical Journal 251, 685690.Google Scholar
Issad, T., Ferré, P., Pastor-Anglada, M., Baudon, M. A. & Girard, J. (1989). Development of insulin sensitivity in white adipose tissue during the suckling-weaning transition in the rat: involvement of glucose transport and lipogenesis. Biochemical Journal 264, 217222.Google Scholar
Katsurada, A., Iritani, N., Fukuda, H., Matsumura, Y., Nishimoto, N., Noguchi, T. & Tanaka, T. (1990 a). Effects of nutrients and hormones on transcriptional and post transcriptional regulation of fatty acid synthase in rat liver. European Journal of Biochemistry 190, 427433.Google Scholar
Katsurada, A., Iritani, N., Fukuda, H., Matsumura, Y., Nishimoto, N., Noguchi, T. & Tanaka, T. (1990 b). Effects of nutrients and hormones on transcriptional and post transcriptional regulation of acetyl-CoA carboxylase in rat liver. European Journal of Biochemistry 190, 435441.CrossRefGoogle ScholarPubMed
Lavau, M. & Hashim, S. A. (1978). Effects of medium chain triglycerides on lipogenesis and body fat in the rat. Journal of Nutrition 108, 613620.Google Scholar
Nakanishi, S. & Numa, A. (1970). Purification of rat liver acetyl coenzyme A carboxylase ancl immunochemical studies on its synthesis and degradation. European Journal of Biochemistry 16, 161173.Google Scholar
Nepokroeff, C. M., Adachi, K., Yan, C. & Porter, J. W. (1984). Cloning of DNA complementary to rat liver fatty acid synthetase mRNA. European Journal of Biochemistry 140, 441445.CrossRefGoogle ScholarPubMed
Pape, M. E., Lopez-Casillas, F. & Kim, K. H. (1988). Physiological regulation of acetyl-CoA carboxylase gene expression: effects of diet, diabetes and lactation on acetyl-CoA carboxylase mRNA. Archives of Biochemistry and Biophysics 267, 104109.Google Scholar
Paulauskis, J. D. & Sul, H. K. (1989). Hormonal regulation of mouse fatty acid synthase gene transcription in liver. Journal of Biological Chemistry 264, 574577.Google Scholar
Perdereau, D., Narkewicz, M., Coupé, C., FerrÉ, P. & Girard, J. (1990). Hormonal control of specific gene expression in the rat during the suckling-weaning transition. Advances in Enzyme Regulation 30, 91107.Google Scholar
Redman, R. S. & Sweeney, L. R. (1976). Changes in diet and patterns of feeding activity of developing rats. Journal of Nutrition 106, 615626.CrossRefGoogle ScholarPubMed
Reshef, L., Hanson, R. W. & Ballard, J. F. (1970). A possible physiological role for glycerolneogenesis in rat adipose tissue. Journal of Biological Chemistry 245, 59795984.CrossRefGoogle ScholarPubMed
Romsos, D. R. & Leveille, G. A. (1974). Effect of diet on activity of enzymes involved in fatty acid and cholesterol synthesis. Advances in Lipid Research 12, 97146.Google Scholar
Shillabeer, G., Homford, J., Forden, J. M., Wong, N. C. W. & Lau, D. C. W. (1990). Hepatic and adipose tissue lipogenic enzyme mRNA are suppressed by high fat diets in the rat. Journal of Lipid Research 31, 623631.Google Scholar
Takase, S. & Hosoya, N. (1986). Effect of dietary medium chain triglyceride on lipogenic enzyme activity in rat liver. Journal of Nutritional Science and Vitaminology 32, 219227.Google Scholar
Toussant, M. J., Wilson, M. D. & Clarke, S. D. (1981). Coordinate suppression of liver acetyl-CoA carboxylase and fatty acid synthetase by polyunsaturated fat. Journal of Nutrition 111, 146153.Google Scholar
Tsujikawa, M. & Kimura, S. (1980). Changes in lipid synthesis in rat adipose tissue during development. Journal of Nutritional Science and Vitaminology 26, 367374.Google Scholar
Volpe, J. J. & Marasa, J. C. (1975). Hormonal regulation of fatty acid synthetase, acetyl-CoA carboxylase and fatty acid synthesis in mammalian adipose tissue and liver. Biochimica et Biophysica Acta 380, 454472.Google Scholar
Walker, P., Dubois, J. D. & Dussault, J. H. (1980). Free thyroid hormone concentrations during the postnatal development in the rat. Pediatric Research 14, 247249.Google Scholar
Walker, P. R., Bonney, R. J. & Van Potter, R. (1974). Diurnal rhythms of hepatic carbohydrate metabolism during development of the rat. Biochemical Journal 140, 523529.CrossRefGoogle ScholarPubMed
Yan, C., Wood, E. A. & Porter, J. W. (1985). Characterization of fatty acid synthetase cDNA clone and its mRNA. Biochemical and Biophysical Research Communications 126, 12351241.Google Scholar
Yeh, Y. Y. & Zee, P. (1976). Relation of ketosis to metabolic changes induced by acute medium chain triglyceride feeding in rats. Journal of Nutrition 106, 5867.Google Scholar
Yoo-Warren, H., Cimbala, M. A., Felz, K., Monahan, J. E., Leis, J. P. & Hanson, R. W. (1981). Identification of a cDNA clone to phosphoenolpyruvate carboxykinase (GTP) from rat cytosol. Alterations in RNA levels detectable by hybridization. Journal of Biological Chemistry 256, 1022410227.Google Scholar