Dietary fat type and energy restriction interactively influence plasma leptin concentration in rats

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Dietary fat type and energy restriction interactively influence plasma leptin concentration in rats

Ming C. Cha^a and Peter J. H. Jones^a
^a School of Dietetics and Human Nutrition, Macdonald Campus of McGill University, 21,111 Lakeshore Road, Ste Anne de Bellevue P.Q., Canada H9X 3V9

Correspondence to: Peter J. H. Jones.

To investigate whether dietary fat source and energy restrictioninteractively influence plasma leptin levels and its associationof leptin with insulin action, rats were fed diets containingeither fish, safflower oil, or beef tallow (20% wt/wt) for 10weeks. Groups of rats consumed each diet ad libitum or at 85%or 70% of ad libitum energy intake in a design that held fatintake constant. Graded levels of energy restriction causedbody weight to decrease (P < 0.001) differently accordingto the dietary fat provided. Plasma leptin concentrations were60% higher (P < 0.05) in the groups fed fish oil and saffloweroil ad libitum compared with those in the beef tallow group,despite smaller perirenal fat mass and fat cell size in thefish oil-fed animals. Energy restriction resulted in a 62% decrease(P < 0.05) in leptin levels in fish oil- and safflower oil-fedrats, whereas no changes were observed in beef tallow-fed animals.Plasma insulin levels were lower (P < 0.05) in the fish oilgroup fed ad libitum compared with those in the two other dietgroups.

These data demonstrate a hyperleptinemic effect in animals consumingdiets rich in polyunsaturated fatty acid, which can be normalizedto the level of saturated fat consumption by mild energy restriction.Thus, dietary fatty acid composition, independent of adiposetissue mass, is an important determinant of circulating leptinlevel in diet-induced obesity.—Cha, M. C., and P. J. H.Jones. Dietary fat type and energy restriction interactivelyinfluence plasma leptin concentration in rats. J. Lipid. Res.1998. 39: 1655–1660.

Supplementary key words: fish oil, safflower oil, beef tallow, energy restriction, leptin,insulin, rat

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				M. Winnicki, V. K. Somers, V. Accurso, B. G. Phillips, M. Puato, P. Palatini, and P. Pauletto Fish-Rich Diet, Leptin, and Body Mass Circulation, July 16, 2002; 106(3): 289 - 291. [Abstract] [Full Text] [PDF]

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				J. E. Reseland, F. Haugen, K. Hollung, K. Solvoll, B. Halvorsen, I. R. Brude, M. S. Nenseter, E. N. Christiansen, and C. A. Drevon Reduction of leptin gene expression by dietary polyunsaturated fatty acids J. Lipid Res., May 1, 2001; 42(5): 743 - 750. [Abstract] [Full Text]

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				T. Murase, T. Mizuno, T. Omachi, K. Onizawa, Y. Komine, H. Kondo, T. Hase, and I. Tokimitsu Dietary diacylglycerol suppresses high fat and high sucrose diet-induced body fat accumulation in C57BL/6J mice J. Lipid Res., March 1, 2001; 42(3): 372 - 378. [Abstract] [Full Text]

				W.-N. P. Lee, S. Bassilian, S. Lim, and L. G. Boros Loss of regulation of lipogenesis in the Zucker diabetic (ZDF) rat Am J Physiol Endocrinol Metab, August 1, 2000; 279(2): E425 - E432. [Abstract] [Full Text] [PDF]

				M. M. Hagan, P. A. Rushing, M. W. Schwartz, K. A. Yagaloff, P. Burn, S. C. Woods, and R. J. Seeley Role of the CNS Melanocortin System in the Response to Overfeeding J. Neurosci., March 15, 1999; 19(6): 2362 - 2367. [Abstract] [Full Text] [PDF]

				Z. Liu, G.-Q. Chang, and S. F. Leibowitz Diacylglycerol Kinase zeta in Hypothalamus Interacts with Long Form Leptin Receptor. RELATION TO DIETARY FAT AND BODY WEIGHT REGULATION J. Biol. Chem., February 16, 2001; 276(8): 5900 - 5907. [Abstract] [Full Text] [PDF]

Original Article

Dietary fat type and energy restriction interactively influence plasma leptin concentration in rats