Patricia R. Johnson scite author profile

Adult rats of various strains became obese when they were fed a highly palatable diet for several months. Analysis of their adipose tissue morphology revealed increases in both adipocyte size and number in most depots. Reintroduction of an ordinary chow diet to such animals precipitated a period of weight loss during which only mean adipocyte size returned to normal. Adipocyte number remained at the elevated level achieved during the period of weight gain. Thus, transient dietary obesity in rats results in a persistent obesity of a purely hyperplastic, nonhypertrophic form. Furthermore, the persistence of the cell number increase suggests that it is the result of proliferation or differentiation rather than of only an increase in the lipid content of a pool of very small and normally undetected adipocytes. An analysis of adipose tissue morphology changes during the course of diet-induced weight gain suggests that the achievement of some specific mean adipocyte size triggers the events that culminate in adipocyte number increase. What mechanisms may link adipocyte size to the formation of new adipocytes remains unknown.

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Relationship of plasma leptin to plasma insulin and adiposity in normal weight and overweight women: effects of dietary fat content and sustained weight loss.

Havel

Kasim-Karakas

Mueller

et al. 1996

The Journal of Clinical Endocrinology & Metabolism

184

101

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Leptin, the product of the human homologue of the ob gene, which is defective in the obese (ob/ob) mouse, may be a humoral regulator of human adiposity. Plasma leptin concentrations were measured by RIA in 19 normal weight [body mass index (BMI) = 24.5 +/- 0.6 kg/m2] and 19 overweight to obese (BMI = 34.7 +/- 1.2 kg/m2) nondiabetic postmenopausal women on sequential controlled weight-maintaining diets containing 31%, 23%, and 14% of energy as fat, each for 4-6 weeks. Thereafter, the subjects ate a very low fat diet (< 15%) ad libitum; plasma leptin and insulin concentrations, BMI, percent body fat (%BF), and resting energy expenditure were determined after 6 and 8 months. Absolute and adiposity-corrected plasma leptin levels were higher in overweight/obese women (37.7 +/- 3.5 ng/mL; 1.01 +/- 0.07 ng.mL-1.%BF-1) than in normal weight women (16.9 +/- 2.2 ng/mL; 0.57 +/- 0.06 ng.mL-1.%BF-1, both P < 0.005 vs. obese), but were not different between the 31%, 23%, and 14% fat diets when body weight was stable. Plasma leptin was highly correlated with BMI (r = 0.81, P < 0.0001), %BF (r = 0.80, P < 0.0001), and fasting plasma insulin (r = 0.61, P < 0.0001). After 8 months on the ad libitum low fat diet, the women had lost an average of 6.9 +/- 1.0% of body mass (-2.0 +/- 0.3 kg/m2, P < 0.0001). In 15 subjects who lost more than 7% of body mass (-12.3 +/- 1.0%), plasma leptin concentrations decreased (-9.6 +/- 1.9 ng/mL, P < 0.0005), and the decrease of plasma leptin per change of adiposity (delta leptin/delta %BF) was greater in overweight/obese women (3.6 +/- 0.5) than in normal weight women (0.9 +/- 0.4, P < 0.01 vs. obese). In 18 other subjects who lost less than 7% of body mass (-2.7 +/- 0.6%), plasma leptin was unchanged (+1.4 +/- 1.4 ng/mL). Overall, the change of plasma leptin was significantly correlated with change of BMI (r = 0.43, P < 0.02), the change of %BF (r = 0.49, P < 0.005), the change of resting energy expenditure (r = 0.40, P < 0.02), and with the change of plasma insulin independently of changes of body adiposity (r = 0.45, P < 0.01). We conclude that plasma leptin concentrations are: 1) not affected by dietary fat content per se; 2) highly correlated with BMI, %BF, and plasma insulin in both overweight/obese and normal weight women; 3) decreased in parallel with plasma insulin after sustained weight loss; and 4) decreased more in overweight/obese than in normal weight women.

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Long-Term Effects of Early Nutritional Experience on the Development of Obesity in the Rat

Faust

Johnson

Hirsch

1980

The Journal of Nutrition

144

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Adjustment of litter size was used to provide two levels of early nutrition to rat pups and thereby to produce adult rats of markedly different body weights. Effects of the two levels of early nutrition on adipose tissue were compared after the rats had been fed ad libitum for nearly 1 year. Mean fat cell size did not differ between rats raised in large and small litters regardless of whether they had been maintained continuously on a stock diet (upon which rats usually have normal size fat cells) or had been switched to a high-fat diet (upon which rats usually have greatly enlarged fat cells). However, rats raised in large litters had less body fat and fewer fat cells than rats reared in small litters, both in absolute terms and relative to body weight. Litter size also affected the absolute, but not relative, increase in body fat and fat cell number induced by high fat feeding. Early nutrition thus has a sustained effect on fat mass and fat cell number, but not on fat cell size, which is apparent even when adipose tissue has been induced to major alteration by the feeding of a high fat diet.

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Spontaneous activity and adipose cellularity in the genetically obese Zucker rat (fafa)

1977

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Longevity in obese and lean male and female rats of the Zucker strain: prevention of hyperphagia

Johnson¹,

Stern²,

Horwitz³

et al. 1997

The American Journal of Clinical Nutrition

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Zucker obese (fa/fa) and lean (Fa/Fa) rats were fed a soy protein diet ad libitum under barrier conditions from 4 wk of age until death. Obese rats were also pair fed with lean controls to prevent hyperphagia. Time of death was determined and tissues collected at necropsy for histologic examination. Lean rats had longer 10th percentile survivorship (males 966 compared with 667 d, females 983 compared with 620 d) and maximum life spans (males 1067 compared with 803 d, females 1163 compared with 744 d) than did obese rats. Preventing hyperphagia increased maximum life span in both males (1010 d) and females (975 d). Pathologies in lean rats were similar to those reported for other rodent strains. For obese rats fed ad libitum, end-stage renal disease (ESRD) was the major cause of mortality (males: 91.1%, females: 93.3%). Prevention of hyperphagia decreased deaths attributable to ESRD (males: 64.4%, females: 51.1%). A smaller restriction in energy intake (8-18%) required to prevent hyperphagia compared with the 35-40% in most other studies produced similar increases in longevity, suggesting that obese Zucker rats are particularly sensitive to energy restriction. Amelioration of early onset of renal disease is a likely explanation. Percentage body fat in food-restricted obese rats did not differ from that of animals fed ad libitum; thus, reduced longevity is not the result of obesity per se, but rather is influenced by other metabolic pathologies occurring in this strain of rats homozygous for the fa gene. Because microalbuminuria with progression to ESRD is a complication in human obesity, the Zucker strain offers the opportunity to investigate initiating mechanisms of this pathology.

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