Regulation of lipid synthesis in hepatocytes from lean and obese Zucker rats

Fatty acid synthesis and CO₂ production were evaluated in hepatocytes from lean and obese Zucker rats in the presence of ³H₂O, and several carbon precursors. The incorporation of ³H₂O into fatty acids was greater in obese compared to lean rats in both the isolated hepatocyte and in vivo. The rates of incorporation of ³H₂O into fatty acids and cholesterol in hepatocytes of both lean and obese rats were linear for 2 hr, in the absence or presence of 16.7 mM glucose. Rates of fatty acid synthesis were higher in the presence of 16.7 mM glucose compared to the absence of glucose in both lean and obese while rates of cholesterol synthesis were similar. The incorporation of ³H₂O into fatty acids, but not into cholesterol, was correlated with increasing glucose concentration and was 2 to three-fold higher in hepatocytes of obese compared to lean rats in the presence of several carbon precursors. Differences in CO₂ production between lean and obese rats suggested increased pentose phosphate shunt activity, decreased pyruvate dehydrogenase activity, and lower tricarboxylic acid cycle activity in obese rats. Fatty acid synthesis and CO₂ production from ³H₂O and [U-¹⁴C]glucose in hepatocytes of lean and obese rats was similarly elevated by insulin and depressed by glucagon at several concentrations, suggesting that hepatocytes of obese animals respond to these hormones. These data indicate that rates of hepatic fatty acid synthesis although higher in obese rats respond to modulation in a fashion which is similar to the response in lean rats. The present studies suggest that the oxidation of several carbon precursors in the tricarboxylic acid cycle is diminished in obese compared to lean rats, but pentose phosphate shunt activity is greater in the obese Zucker rats.     

Carbohydrate metabolism in lean and obese Zucker rats

Carbohydrate metabolism was evaluated in lean and obese Zucker rats. Plasma glucose concentration, renal and hepatic gluconeogenesis, and hepatic glycogen content and rates of synthesis were investigated in 2-mo and 8-mo-old animals. Mild hyperglycemia was observed in obese Zucker rats compared to lean rats and was more pronounced in males than in females. Rates of glucose disappearance were normal in both female and male rats, although there was a trend toward decreased clearance in the male. Total organ hepatic and kidney PEPCK activity and kidney glucose production were elevated in obese compared to lean rats. Total organ hepatic glycogen levels and rates of glycogen synthesis were increased significantly in obese compared to lean, the increase being greater in males than females. The mild hyperglycemia present in obese Zucker rats is not associated with delayed disappearance of intravenously administered glucose, but may be due to the increased production of glucose by whole kidney and liver.     

Primary culture of adipoblasts from obese and lean Zucker rat adipose tissue

Adipocyte precursors derived from the epididymal fat pads of young adult lean (FaFa) and obese (fafa) Zucker rats were established in primary culture. The two types of culture were used to assess intrinsic cellular differences in proliferative capacity, lipoprotein lipase (LPL) activity and triglyceride (TG) accumulation related to genotype. Proliferative capacity was similar over seven days in vitro in lean- and obese-derived cultures. Heparin-releasable LPL activity was significantly greater in lean- than in obese-derived cultures grown in media supplemented with penicillin and streptomycin (pen-strep). However, when grown in media supplemented with cephalothin, heparin-releasable and total LPL activity increased significantly in obese-derived cultures and equalled LPL activity in lean-derived cultures. Substantial LPL activity was measurable in both types of culture at confluence, before exposure to media that promoted lipid-filling. TG accumulation was significantly greater in lean-than in obese-derived cultures in the presence of pen-strep but was similar in both culture types grown in cephalothin. These data support our hypothesis that the fa gene may affect mechanisms of protein turnover regulation, since pen-strep, but not cephalothin, has inhibitory effects on mammalian protein synthesis and degradation. The substantial LPL activity present in confluent, but unconverted cultures, suggests that some percentage of cells in the confluent monolayers are adipoblasts.     

Cholesterol homeostasis in lean and obese male Zucker rats

Studies were performed in male Zucker rats to determine the metabolic effect of genetic obesity on whole body cholesterol homeostasis. Lean and obese mature Zucker rats were studied during intake of either a chow diet or a semisynthetic diet containing 10% corn oil; in addition growing animals were studied during constant body weight gain on a chow diet. Under all conditions the obese Zucker rats had significantly higher levels of total plasma cholesterol and triglyceride; however, measurements of the specific activity of hepatic 3-hydroxy-3-methylglutaryl coenzyme A reductase and of the rate of whole body cholesterol synthesis by sterol balance techniques demonstrated that the lean and obese animals did not differ in their endogenous rates of cholesterol synthesis. When sterol balance data were calculated per kilogram body weight, lean male Zucker rats synthesized a greater amount of cholesterol per day than obese animals. These studies demonstrate that the obese male Zucker rat, in many ways a model of human obesity, does not overproduce cholesterol and thus fails to exhibit one of major characteristics of the obese human.     

The postprandial rates of glycogen and lipid synthesis of lean and obese female Zucker rats

OBJECTIVE: To determine the relative rates of glycogenesis and lipogenesis following administration of a test meal in lean and obese Zucker rats. PROTOCOL: Nine-week-old lean and obese Zucker rats were fasted overnight, then tube-fed a test meal of balanced composition amounting to 16kJ (lean rats and one group of obese rats) or 24kJ (one group of obese rats) and containing 200 mg 1-(13)C glucose. Immediately after the meal the rats were injected intraperitoneally with 5 mCi of 3H2O and killed 1 h later. METHODS: Glycogenesis was calculated from the incorporation of 3H into liver glycogen divided by the specific activity of plasma water. Lipogenesis was calculated similarly from the incorporation of 3H into saponifiable lipids in liver and perirenal adipose tissue. The proportion of glycogen synthesized by the indirect pathway via pyruvate was determined from the ratio of 3H labelling at positions C6 and C2 in the glycogen glucose residues. Glycogen synthesis from glucose was determined from the ratio of 13C enrichment in liver glycogen to that in plasma glucose. RESULTS: The rate of synthesis of glycogen was considerably lower in the livers of obese rats than those of lean controls, with the larger meal causing a small but significant increase in glycogenesis. The proportion of glycogen synthesized via pyruvate showed a non-significant increase in the obese rats, while the amount of glycogen synthesized from glucose was significantly decreased. Hepatic lipogenic rates were about five times higher in both groups of obese rats than the lean controls. In adipose tissue, lipogenesis per g tissue was slightly reduced in the obese rats, although there was clearly an increase in adipose tissue lipogenic activity per whole animal. The larger meal caused a greater rise in plasma glucose and insulin concentrations but did not affect lipogenic rates, although it did cause a greater suppression of lipolysis, as indicated by a lower plasma glycerol concentration. CONCLUSION: Ingested carbohydrate is partitioned predominantly into hepatic fatty acid synthesis in obese Zucker rats. Hepatic glycogen synthesis is suppressed and comes mainly from precursors other than glucose. The suppression of hepatic glycogen synthesis may contribute to the increased energetic efficiency of obese Zucker rats.     

Body composition of lean and obese Zucker rats in parabiosis

Parabiosis is the surgical union of two animals to produce a chronic blood exchange. This model has previously been used to demonstrate the involvement of a blood-borne factor in the feedback control of food intake and regulation of energy balance. It has been hypothesized that obese rats produce a humoral agent that acts centrally to inhibit food intake and accumulation of fat. In this study 50-day-old male or female Zucker rats were joined in either lean-lean pairs or lean-obese pairs. They ate ad libitum until 152 days of age when body composition was determined. Parabiosis inhibited growth in all rats compared with single controls. Lean partners of obese rats had reduced carcass weights, the same percent body protein but less fat than members of lean-lean pairs. Female rats showed larger changes in body composition than did males. These results suggest that obese Zucker rats produce the hypothesized regulatory signal but do not respond to it.     

Oleoyl-estrone treatment affects the ponderostat setting differently in lean and obese Zucker rats.

OBJECTIVE: To determine whether the slimming effects of treatment with oleoyl-estrone (OE) in liposomes of normal and obese rats are permanent, or disappear as soon as the treatment with the drug ceased. This study was devised to gain further knowledge on the postulated role of OE as a ponderostat signal, evaluating whether (in addition) it can lower the ponderostat setting of the rat. DESIGN: The rats were infused for 14d (using osmotic minipumps) with oleoyl-estrone in liposomes at a dose of 3.5 micromol/kg x d, and were studied up to one month after the treatment ceased. SUBJECTS: Young adult lean controls (CL) or treated (TL) and obese controls (CO) or treated (TO) Zucker rats. MEASUREMENTS: Energy balance, blood glucose, liver glycogen, plasma insulin, leptin corticosterone, ACTH and estrone (free and total) concentrations, and expression of the OB gene in white adipose tissue (WAT). RESULTS: The loss of body weight caused by OE was recovered quickly in the TO, which gained weight at the same rate as the CO. TL rats, however remained at the low weight attained for one month after the treatment ceased. However, no differences were observed in calculated energy expenditure (EE) between the TL and TC rats once treatment had stopped. In TL and TO rats, liver glycogen concentrations decreased to normal shortly after treatment ceased, and leptin expression and concentrations remained normal and unchanged after the end of OE treatment. In TO rats, plasma glucose, insulin and leptin were lower than in the CO. Total estrone concentrations decreased rapidly in TL rats and more slowly in the TO, and free estrone followed a similar pattern. CONCLUSION: Continuous infusion of liposomes loaded with OE resulted in a decreased energy intake (EI), maintenance of EE and the utilization of body fat reserves in lean and obese rats alike. This process ended in obese rats as soon as the infusion ceased, so that even when the levels of free and total estrone in plasma remained high, there was a marked (and relatively fast) shift toward the basal situation, which translated into an increase in EI, maintenance of estimated EE and a marked buildup of energy stores. In lean rats, the effects of OE on leptin concentrations and OB gene expression persisted after infusion ended.     

Subcellular lipid droplet distribution in red and white muscles in the obese Zucker rat

Aims/hypothesis  

Little is known about the subcellular distribution of lipids in insulin-resistant skeletal muscle. However, it has recently been suggested that lipid accumulation in the subsarcolemmal region directly contributes to insulin resistance. Therefore we hypothesised that regional differences in lipid distribution in insulin-resistant muscle may be mediated by: (1) a reduction in fatty acid trafficking into mitochondria; and/or (2) a regional increase in the enzymes regulating lipid synthesis.     

Hypothalamic-pituitary-adrenal axis function in the Zucker obese rat.

The development of many endocrine, metabolic, and behavioral abnormalities characteristic of genetically obese Zucker rats is dependent upon the presence of glucocorticoids, the secretion of which is regulated by a neuroendocrine cascade initiated by hypothalamic release of CRF. Recent reports have inferred alterations in central CRF tone as a putative factor contributing to dysregulation of the pituitary-adrenal axis and of metabolic processes in this phenotype. In the current study the hypothalamic CRF system in Zucker lean (FA/?) and obese (fa/fa) phenotypes was functionally evaluated. Neither the stalk median eminence content of CRF or arginine vasopressin (AVP) nor hypothalamic levels of CRF or AVP mRNA differed in the lean and obese phenotypes. No phenotypic differences were observed in either basal or stimulated CRF release from hypothalamic tissue obtained from lean and obese rats. Furthermore, in intact rats the magnitude of pituitary-adrenal responses to various stressors was also similar between phenotypes. However, secretion of CRF and AVP into the hypophysial-portal circulation of obese rats was, respectively, 73% and 35% lower than that of the lean rats. Adrenalectomy was associated with a 3-fold elevation of hypophysial-portal CRF levels in obese rats compared to intact controls. Corticosterone infusion was more effective in suppressing portal CRF levels in adrenalectomized obese compared to adrenalectomized lean rats. Finally, neither CRF receptor number and affinity nor the magnitude of pituitary-adrenal responses to rat CRF challenge (1 micrograms, iv) differed between Zucker phenotypes. These observations lead us to infer that rats of the obese phenotype exhibit reduced hypothalamic CRF tone due to dysregulation of the HPA axis at a site proximal to the hypophysiotropic CRF system that mediates glucocorticoid feedback regulation.     

Oxidation and ketogenesis in hepatocytes of lean and obese Zucker rats

Ketone body production and oxidation of ¹⁴C fatty acids to CO₂ were measured in hepatocytes isolated from lean and obese Zucker rats. The oxidation of [1-¹⁴C]octanoate, [1-¹⁴C]palmitate and [1-¹⁴C]palmitoyl carnitine to ¹⁴CO₂ was 50%–70% less in obese than in lean rats. Although ketone body production in hepatocytes from both lean and obese rats was increased by fasting, there was a significantly lower rate of ketone body production in hepatocytes from obese rats. Ketone body production was reduced to a comparable extent by increasing the glucose concentration in the incubation media of hepatocytes from both lean and obese rats. Glucagon and carnitine increased ketogenesis and the effects were additive and similar in lean and obese rats. These data suggest that β-oxidation and ketogenesis are suppressed in the obese Zucker rat, and further that ketone bodies can be modulated similarly in hepatocytes from lean and obese rats by nutritional and hormonal intervention. It is postulated that the decreased β-oxidation and ketone body production may play a role in the development or maintenance of obesity in the Zucker rat.     

Neuronal activity in hypothalamic nuclei of obese and lean Zucker rats

Central neural activity was assessed by measuring relative cytochrome oxidase (CO) activity in the ventromedial nucleus (VMN; thermogenesis regulation), the parvocellular paraventricular nucleus (PVN; feeding regulation), and the magnocellular PVN (secretion of vasopressin and oxytocin) in 10 age-matched pairs of 39- to 42-day-old Zucker rats. When obese (fa/fa) were compared to lean (Fa/Fa) rats, relative CO activity was significantly lower (approximately 10 percent) in the VMN and parvocellular PVN, but not in the magnocellular PVN. Cell diameters did not differ. To determine if there were corresponding differences in levels or release of hypothalamic monoamines, we compared 7 pairs of 90- to 94-day-old lean (Fa/?) and obese (fa/fa) rats at rest and after 2 h of 9 degrees C. Tissue punches from frozen PVN, VMN, and preoptic area (the latter being a site of thermosensitive units modulating VMN output) were assayed. In obese vs. lean noncold-exposed rats, we observed lower concentrations of: 5-hydroxyindoleacetic acid (5HIAA; metabolite of serotonin, 5HT) in the VMN; 3-methoxy-4-hydroxyphenylglycol (MHPG; metabolite of norepinephrine, NE) and NE + MHPG (index of total NE) in the preoptic area; and 3,4-dihydroxyphenylacetic acid (DOPAC; metabolite of dopamine, DA) in the PVN. Additionally, in the VMN, cold exposure resulted in: elevated concentrations of MHPG and MHPG + NE in both lean and obese rats; elevated concentrations of 5HT, 5HIAA, and 5HT + 5HIAA in obese rats, with no significant changes in these variables in lean animals; decreased ratio of 5HIAA/5HT in obese rats and increased ratio in leans. In the preoptic region, cold exposure led to increased concentrations of MHPG, NE + MHPG, 5HT, and 5HT + 5HIAA in obese but not lean rats. In the PVN, 5HT concentrations were increased in cold-exposed obese but not lean rats. Our data support the hypothesis that neuronal activity in obese rats differs from that of lean rats at rest and during cold exposure and suggest that several monoamine systems play a role in such differences.     

Renal function in the obese Zucker rat

The hyperphagic, genetically obese Zucker rat (fa/fa) exhibits both a greater kidney size and a progressive, premature glomerular sclerosis. In the present study, glomerular filtration rate (GFR), effective renal plasma flow (ERPF) and renal tubular function were evaluated during study 1 in lean Zucker (FA/-), fa/fa, and lean Sprague-Dawley (S-D) rats. The GFR as measured by renal inulin clearance (ClIN) was not significantly different (P greater than 0.05) between S-D (1.36 +/- 0.18 ml/min) vs FA/- (1.36 +/- 0.33 ml/min) and FA/- vs fa/fa (1.25 +/- 0.42 ml/min). The ERPF as measured by renal p-aminohippurate (PAH) clearance (ClPAH) also was not significantly different between S-D (3.98 +/- 0.80 ml/min) vs Fa/- (3.71 +/- 0.81 ml/min) and Fa/- vs fa/fa (3.34 +/- 1.60 ml/min). There was a significant difference (P less than 0.05) in the renal tubular transport maximum (Tm) of PAH between S-D (2.23 +/- 0.40 mg/min) and Fa/- (1.64 +/- 0.63 mg/min) groups but not between Fa/- and fa/fa (1.29 +/- 0.61 mg/min) groups, indicating a strain effect in organic anionic renal transport. The Fa/- vs fa/fa comparisons were significant when GFR, ERPF and Tm were corrected for total body or kidney weight. In a second group of animals (study 2), GFR (as reflected by creatinine clearance [Clcr]) and histologic studies were performed in Fa/- and fa/fa rats. Clcr values were significantly higher in the fa/fa (2.10 +/- 0.44 ml/min) vs Fa/- (1.68 +/- 0.17 ml/min). Histologic studies in group 2 demonstrated no remarkable differences between Fa/- and fa/fa rats. These results suggest wide interanimal variation in obesity associated changes in renal function and possibly pathology in the fa/fa rat.     

Expression of peroxisome proliferator-activated receptors in lean and obese Zucker rats

OBJECTIVE: Examination of the pattern of expression of peroxisome proliferator-activated receptor (PPAR) isoforms alpha and gamma in a model of obesity. DESIGN: Examination of adipose tissue and primary adipocyte cultures from lean and obese Zucker rats at different ages (28 days and 12 weeks). METHODS: mRNA levels were measured by RNase protection assay.RESULTS: The highest levels of PPARalpha and gamma mRNA were present in brown adipose tissue (BAT), followed by liver and white adipose tissue (WAT) for the alpha and gamma subtypes, respectively, at both ages examined. PPARalpha was expressed 100-fold higher in BAT compared with WAT, and PPARgamma mRNA levels were 2-fold higher in the WAT of obese compared with lean rats. PPARalpha and gamma expression was minimal in m. soleus, although higher levels of PPARgamma were found in the diaphragm. In marked contrast to the findings in vivo, virtually no PPARalpha mRNA could be detected in BAT cultures differentiated in vitro. CONCLUSION: PPARalpha and gamma are most highly expressed in BAT in vivo. However, PPARalpha is undetectable in brown adipose cells in vitro, suggesting that the expression of this receptor is induced by some external stimuli. In addition, the expression of PPARgamma was increased in WAT from young obese animals, compatible with an early adaptive phenomenon. Finally, the presence of PPARgamma mRNA is detectable only in particular muscles, such as the diaphragm, suggesting the possibility of an influence of fiber type on its expression, although exercise did not influence the expression of PPARgamma in other skeletal muscles.     

Metabolic consequences of fasting in old lean and obese Zucker rats

The effects of fasting on lipid and carbohydrate metabolism and plasma insulin and glucagon levels were compared in lean and obese Zucker rats. Sixteen-month-old female and male rats were fasted for periods of 2, 4, 6 and 12 days. Fasting produced significant decreases in hepatic rates of lipid, cholesterol, and glycogen synthesis, as well as circulating levels of triglycerides, cholesterol, phospholipids, and insulin. Significant increases in hepatic lipid levels and serum free fatty acids were noted. When compared to lean rats, obese rats had elevated rates of hepatic lipid and glycogen synthesis, hepatic lipid and glycogen stores, serum triglycerides, cholesterol, phospholipids, and plasma insulin. Lean rats had higher plasma glucagon levels. Sex differences in several parameters were observed. Females demonstrated higher levels of lipid and cholesterol synthesis and serum free fatty acids, whereas serum cholesterol levels and hepatic glycogen stores were higher in males. Following a 12-day fast, carcass fat and protein content were decreased in both lean and obese rats, but the obese animals maintained an obese body composition. It is concluded that fasting results in qualitatively similar metabolic and hormonal changes in both lean and obese rats, but that abnormalities in carbohydrate and lipid metabolism persist in obese rats even after a 12-day fast.     

Zucker obese rats store less acyl-estrone than lean controls

OBJECTIVE: To measure acyl-estrone levels in the plasma of Zucker obese rats. If these are lower than expected on the basis of their body-fat content, as observed in morbidly obese humans, this might provide a possible link relating obesity and low body estrone levels. We also examined the effect of pharmacological treatment with oral oleoyl-estrone on the accumulation of estrone. DESIGN: Undisturbed Wistar, Goto-Kakizaki and Zucker (lean Fa/?and obese fa/fa) rats were used to determine the relation between circulating acyl-estrone and body lipids, as well as the total body estrone/lipid ratios. One group of Wistar rats was used to measure the effect of oral gavages of oleoyl-estrone (from 0 to 20 micromol/kg/day) for 10 days on the body content of estrone. MEASUREMENTS: Body weight change and food intake. Total estrone intake, estrone accrual and excretion (by difference) in rats receiving oleoyl-estrone. Total body lipid and estrone. Circulating acyl-estrone levels. RESULTS: In lean rats (Wistar, Zucker and Goto-Kakizaki) there was a direct relation between body lipid content and circulating acyl-estrone; this relation was not found in Zucker obese rats. The estrone/lipid mass ratio was in a similar range in lean rats, but obese animals showed much lower values. Wistar rats receiving pharmacological doses of oleoyl-estrone did not accumulate significant amounts of estrone, but excreted almost all the estrone ingested. CONCLUSIONS: The pharmacological administration of acyl-estrone to rats does not result in the accrual of estrone within a wide range of doses, which confirms the safety of this compound. In rats there is a similar relation between the percentage of body lipids and circulating acyl-estrone to that found in humans. Likewise, obese rats showed lower levels of acyl-estrone than expected. The total content of estrone in the bodies of obese rats was also lower than expected from their high lipid content, which suggests that obese rats are deficient in acyl-estrone.     

Metabolic abnormalities of the hyperglycemic obese Zucker rat.

In a cross-sectional study, we evaluated the metabolic profiles of lean (Fa/?) and obese (fa/fa) Zucker male rats at 4 to 8 months of age. Although all of the obese rats (N = 108) demonstrated glucose intolerance, most of the obese rats exhibited only mild elevations of fasted and fed plasma glucose. Only 14 of the obese rats were severely hyperglycemic, which resulted in substantial elevations of glycohemoglobin (GHb) levels. The nerve and lens levels of glucose, sorbitol, and fructose were elevated, and the myo-inositol was depleted in all hyperglycemic obese rats, but not in the euglycemic obese rats. With increasing duration of hyperglycemia, the neural myo-inositol level approached normal, while the lenses became cataractous. All obese rats had increased urinary albumin excretion (UAE), which was dependent on age (r = .45, P less than .02) and independent of hyperglycemia, glucosuria, and polyuria. In conclusion, although the euglycemic obese rats exhibited some diabetic abnormalities, the hyperglycemic obese Zucker rat more closely resembled the altered metabolic profile associated with type II diabetes mellitus.     

Similar metabolic responses to calorie restriction in lean and obese Zucker rats

Calorie restriction (CR), which is thought to be largely dependent on the neuroendocrine system modulated by insulin/insulin-like growth factor-I (IGF-I) and leptin signaling, decreases morbidity and increases lifespan in many organisms. To elucidate whether insulin and leptin sensitivities are indispensable in the metabolic adaptation to CR, we investigated the effects of CR on obese Zucker (fa/fa) rats and lean control (+/+) rats. CR did not fully improve insulin resistance in (fa/fa) rats. Nonetheless, CR induced neuropeptide Y (NPY) expression in the hypothalamic arcuate nucleus and metabolism related gene expression changes in the liver in (fa/fa) rats and (+/+) rats. Up-regulation of NPY augmented plasma corticosterone levels and suppressed pituitary growth hormone (GH) expression, thereby modulating adipocytokine production to induce tissue-specific insulin sensitivity. Thus, central NPY activation via peripheral signaling might play a crucial role in the effects of CR, even in insulin resistant and leptin receptor deficient conditions.     

Nitrogen balances of lean and obese Zucker rats subjected to a cafeteria diet.

The effects of a cafeteria diet on nitrogen balance in lean (Fa/?) and obese Zucker rats (fa/fa) was studied for two consecutive 15 day periods after weaning. Obese rats were able to absorb a lower proportion of dietary nitrogen than the lean controls. Cafeteria diet increased the retention of dietary nitrogen, and lowered urinary nitrogen losses in both obese and lean rats. Urea constituted practically the only product of urinary nitrogen excretion in obese rats, whereas it accounted for only about 75% of that eliminated by Fa/? rats. Nitrogen accretion in the body was highest for the younger animals, and again increased with cafeteria feeding. Obese fa/fa rats showed a lower percentage of body nitrogen retention than their lean counterparts; obese rats were able, however, to accumulate large amounts of nitrogen and fat, in part because of their higher intake. A significant part of the absorbed nitrogen was not found in either the body or the urine; the cafeteria diet markedly increased the weight of this fraction of nitrogen unaccounted for. In conclusion, the effects of cafeteria feeding on weight and nitrogen handling were comparable in lean and obese rats, i.e. the effects of genetic and dietary obesity seem to be additive with regard to nitrogen extraction and excretion for Zucker rats.