Feed efficiency in growth-retarded rats with ventromedial and dorsomedial hypothalamic lesions produced shortly after weaning

Weanling male rats received electrolytic lesions (L) in the ventromedial (VMN) and dorsomedial (DMN) hypothalamic nuclei; sham-operated rats served as controls. The animals were maintained for various periods up to 50 postoperative days on lab chow under standard conditions. In a short-term study, food intake and body weights were measured daily and body weight gain was divided by the food eaten to obtain the efficiency of food utilization. Also, gains in metabolic size ($\text{kg}\text{3}\text{4}$) were divided by food eaten. Both manipulations showed that DMNL rats, except for the first two postoperative days, utilized food normally. The same changes were obtained for weanling VMNL rats, except that they did not show a decline in utilization during the first two postoperative days. Computation of efficiency of food utilization for both VMNL and DMNL rats over postoperative durations ranging from 7 to 50 days showed that among 12 out of 14 experiments DMNL rats utilized food as well as controls. Out of 8 experiments, rats with VMNL utilized food better for weight gained than controls in one and poorer than controls also in one experiment; in reference to metabolic size they utilized food normally. The foregoing data, gathered from 225 DMNL, 64 VMNL and 181 control rats show quite convincingly that food utilization in both types of experimental animals is unimpaired despite profound reductions in ponderal and linear growth and food intake in the DMNL rat and reduced circulating growth hormone levels in the VMNL rat.     

Paraventricular nucleus lesions in weanling female rats result in normophagia, normal body weight and composition, linear growth and normal levels of several plasma substrates

Female weanling rats received small (1 mAmp for 5 sec) electrolytic lesions in the paraventricular nuclei. Sham-operated rats served as controls. The rats were maintained for 42 days and body weight, linear growth, Lee Index, food intake and efficiency of food utilization were determined throughout the study. Plasma glucose, glycerol, free fatty acids, total protein and carcass fat and protein were determined at sacrifice. There was no significant difference between the lesioned and the sham-operated rats in any of the parameters measured. The findings are interpreted to mean that the PVN of the weanling rat is not functionally mature or alternatively, that there exists a sex difference in weanling rats in response to PVN lesions.     

Growth and metabolic changes in weanling rats with lesions in the dorsomedial hypothalamic nuclei

Summary When compared with sham-operated ad libitum-fed controls, weanling rats with lesions primarily destroying the dorsomedial hypothalamic nuclei (DMNL rats) showed reduced ponderal and linear growth and food intake, normal carcass fat but increased carcass protein. Among the metabolic parameters measured, DMNL rats showed only decreased incorporation of palmitate into epididymal fat pad phospholipid and triglyceride. When sham-operated controls were pair-fed with DMNL rats, they showed growth changes almost identical with those observed in lesioned rats. However, their carcass protein was lower than both that of the lesioned rats and the ad libitum-fed controls. Metabolically, the sham-operated, pair-fed controls showed decreased incorporation of palmitate into triglyceride of epididymal fat pads and decreased oxidation of glucose and increased incorporation into total lipid of the diaphragm. When previous data on growth hormone, insulin, triglyceride and cholesterol are compared with the present findings it is suggested that dorsomedial lesions cause a subcaloric-type dwarfism that does not involve adenohypophyseal secretions and their target organs affecting growth.This investigation was supported by USPHS Grants HD 03331, AM 14418, NIH, a Veterans Administration Grant and a Veterans Administration Clinical Investigatorship (JKG).     

Failure to demonstrate early metabolic changes in weanling growth-retarded hypophagic rats with lesions in the dorsomedial hypothalamic nuclei

Experiment 1: Weanling male rats received bilateral electrolytic lesions in the dorsomedial hypothalamic nuclei (DMNL rats); sham-operated animals served as controls. Rats were killed four hours and three and seven days postoperatively (post-op). Plasma was obtained and epididymal fat pads, diaphragm and liver aliquots were harvested and the in vitro incorporation of U-14C-glucose into CO2, glycogen, lipid and saponifiable fatty acids (FAs) were measured. Body weight, carcass lipid and food intake were significantly lower in DMNL rats than in controls. The only significant lesion-induced metabolic changes were hypoglycemia and greater tracer incorporation into epididymal fat pad lipid and diaphragm glycogen. Both DMNL rats and controls showed similar time courses of tracer incorporation into epididymal CO2 and FAs, diaphragm lipid and liver CO2, glycogen, lipid and FAs. Lesioned rats also showed more pronounced decreases of tracer incorporation from day 0 to day 3 in epididymal glycogen and lipid and diaphragm CO2 and glycogen. These data make it appear unlikely that very early deficits in glucose metabolism are the cause of the growth retardation seen in long-term studies with DMNL rats. The data also demonstrate considerable locus specificity, since weanling rats with ventromedial hypothalamic lesions (VMNL rats) in similar short-term studies have shown dramatic alterations in the above parameters. Experiment 2: Weanling DMNL rats and sham-operated rats were injected via tail vein with tritiated water one hour post-op. One hour after the injection they were decapitated. There were no significant differences between DMNL rats and controls in mumoles tritiated water incorporated into total liver, grams liver tissue, mg liver glycogen and ml or mg plasma glucose.(ABSTRACT TRUNCATED AT 250 WORDS)     

Regulation of feeding behavior in the prepubertal female rat.

Responses to challenges of long-term regulation of feeding behavior were compared between adult and weanling female rats. Adulteration of a high fat diet with NaCl caused both adult and weanling rats to reduce their food intake, but neither group refused to eat. Food deprivation for 24 hr was followed by an increase in feeding for both adult and weanling animals during a period when food intake is normally very low. Continued limited food access to 2 hr during the light period was compensated for by an increase in the normal food intake for this period for both adult and young female rats. It was observed that both adult and weanling rats showed a marked preference for the more dilute glucose solution when given a choice. In addition, both groups maintained a constant caloric intake during presentation of the glucose solutions by adjusting their intake of a solid food source. In each challenge of long-term regulation of feeding behavior, the response of weanling animals was as good or superior to that shown by adults. It is concluded that weanling female rats regulate their feeding just as adults to maintain long-term energy balance. It was also observed that bilateral lesions placed in the ventromedial hypothalamus (VMH) at 21 days of age resulted in reduced daily food intake and retarded body weight gain. Furthermore, young rats with VMH lesions failed to respond to 24 hr of food deprivation or limited food access. These data suggest an important role for the VMH in the long-term regulation of feeding in young rats.     

Naloxone suppression of food and water intake and cholecystokinin reduction of feeding is attenuated in weanling rats with dorsomedial hypothalamic lesions

In Experiment 1, sham operated (SCON) and dorsomedial hypothalamic nuclei (DMN) lesioned (L) rats were given saline or naloxone (0.1, 1.0 or 2.0 mg/kg) just prior to the onset of the dark cycle, lights out. Compared to saline injections, naloxone at all doses suppressed the cumulative food intake of the SCON during the second and third hr of measurement. Naloxone was without significant effect on the food intake of DMNL rats. Similar results were obtained in Experiment 2, except that naloxone at 2.0 mg/kg significantly suppressed the DMNL rats' food intake by the fourth hr of measurement. Cumulative water intake of both groups was significantly suppressed by naloxone in both experiments but its effects appeared to be attenuated in the DMNL group. In a preliminary trial cholecystokinin octapeptide (3.0 and 6.0 micrograms/kg) given at the onset of the dark cycle significantly suppressed the food intake of the SCON group but had no significant effect on the DMNL rats. The possibility exists that the reduced food intake and lower body weight of DMNL rats may partially result from damage to an opioid system. The data also tentatively suggest that DMN may play a role in cholecystokinin-induced satiety.     

Long-term effects of insulin in weanling rats with dorsomedial hypothalamic hypophagia: Food intake,efficiency of food utilization,body weight and composition

Twenty-five day-old Sprague-Dawley rats received electrolytic lesions in the dorsomedial hypothalamic nuclei (DMNL rats); sham-operated rats served as controls. Two weeks after the operation the DMNL rats showed reduced (p<0.001) body weight and food intake but normal body composition (Lee Index) and efficiency of food utilization (EFU). During the following 32 days subcutaneous administration twice daily of intermediary-acting insulin in increasing doses (mean daily dose 2.64 IU/kg) caused highly significant increases in food intake in both groups. Injection for the subsequent 14 days of higher doses of insulin (mean daily dose 5.64 IU/kg) caused dramatic increase in both food intake and Lee Index and equalized the rate of weight gain with that of the controls. However, in absolute terms the DMNL rats remained consistently hypophagic and weighed significantly less than the controls. Both DMNL rats and controls showed the same EFU during both periods of insulin administration. On discontinuation of hormone treatment during the subsequent 20 days, food intake and body weight gains returned to pretreatment values and the insulin-induced increased Lee Index returned into the low-normal range. However, EFU was significantly (p<0.05) decreased during this period. At sacrifice, plasma glucose, glycerol, free fatty acids and total protein and carcass lipid and protein were normal in the DMNL rats. Absolute and relative (per 100 g body weight and per metabolic size) weight of epididymal fat pads, pituitaries, adrenals and kidneys were normal in the DMNL rats but testes weight per 100 g body weight was higher (p<0.05) in the DMNL rats. Although DMN lesions may remove some glucose-sensitive elements within the hypothalamus, the animals are still capable of responding to the food intake and weight-promoting properties of insulin, as do intact animals.     

Meal patterns of rats with dorsomedial hypothalamic nuclei lesions or sham operations

Rats with bilateral dorsomedial hypothalamic electrolytic lesions (DMNL rats) are hypophagic, hypodipsic and have reduced linear and ponderal growth when compared to sham operated controls (SCON). Nevertheless, previous studies have shown that DMNL rats eat and drink adequate amounts for their size and have normal body composition. In the present study we investigated meal parameters: meal size, and frequency (both light and dark period), total intake and meal size per metabolic size (body weight 0.75). Compared to SCON, DMNL rats at twelve days post surgery weighed less, were shorter, but had a normal body composition as determined by the Lee Index, and were hypophagic (grams eaten/day). The animals were placed into individual, self-contained feeding modules and given powdered chow. After familiarization to the modules, meal parameters were recorded continuously by a computer for an eight day period. While dark phase meal frequency did not differ significantly between groups, the lesioned rats took more meals during the light period. Over the eight-day measurement period DMNL rats were hypophagic compared to SCON in absolute terms. However, when total intake and meal size were normalized to metabolic size, these two parameters did not differ significantly between groups. Upon refeeding, after a one-day fast, the initial meal size of the normally hypophagic DMNL rats exceeded that of SCON. Rats with DMNL have previously been shown to have deficits in some hypothesized short-term food intake control mechanism (e.g., cholecystokinin, glucose sensing). Thus overeating by the lesioned rats after a fast could possibly result from a specific short term control deficit.(ABSTRACT TRUNCATED AT 250 WORDS)     

Reduced femoral geometry but normal biomechanics in the dorsomedial hypothalamic nucleus-lesioned rat.

Bone geometry, structure, and biomechanical properties were investigated in a model of growth retardation, the dorsomedial hypothalamic nucleus-lesioned (DMNL) weanling rat. Male weanling Sprague-Dawley rats received bilateral electrolytic lesions in the dorsomedial hypothalamic nucleus (DMN) at age 27 days. Sham-operated rats served as controls. All rats were maintained postoperatively for 40 days. Upon sacrifice, DMNL rats weighed less (p < 0.01), were shorter (p < 0.01), and ate less (p < 0.01) when compared to controls, but their body composition was normal. The femora in DMNL were shorter (p < 0.01), had a smaller outer anteroposterior (AP) diameter (p < 0.04), polar moment of the area (p < 0.02), and maximal (p < 0.02) and minimal (p < 0.03) principal moment of the area when compared with sham-operated rats. Notably, mean torque at failure, torsional energy, stiffness, and maximal stress did not demonstrate statistically significant differences between the two groups. These data clearly show that despite the reduced size and bone growth, DMNL rats responded normally to the mechanical challenges applied to test bone biomechanical properties. The data, therefore, add to previous evidence and strengthen the hypothesis that DMNL rats are governed by an "organismic" set point.     

The lateral hypothalamic syndrome in the weanling rat: bone geometry and biomechanics

Male weanling Sprague-Dawley rats received bilateral electrolytic lesions in the lateral hypothalamic area (LHAL). One group of sham-operated controls was fed ad lib (CON-ADLIB), another was pair fed to the LHAL group (CON-PF). The experiment was terminated 1 month after surgery. At that time, LHAL rats were 49% and CON-PF rats were 41% lighter than CON-ADLIB. Carcass protein in LHAL rats was significantly reduced in LHAL: versus CON-ADLIB. Linear growth was significantly reduced by 18% in LHAL versus CON-ADLIB, as well as LHAL: versus CON-PF by 6%. Mean caloric intake was significantly reduced by 48% in LHAL versus CON-ADLIB, as was caloric efficiency (body weight gained per calories eaten) by 36%, as well as, in CON-PF versus CON-ADLIB by 20%. LHAL rats showed a significantly shorter (10%), narrower (15%) and thinner (25 %) cortex at midshaft of the femur. Resistance to torsional loads was reduced by 25% in both LHAL and CON-PF, but this did not reach statistical significance, in comparison to CON-ADLIB. There was no statistical significance among the groups in stiffness and maximal angular displacement. We conclude that the reduced bone geometrical and biomechanical properties in both LHAL rats and CON-PF versus CON-ADLIB are similar because both former groups of rats were greatly subcaloric. Thus, the changes here observed are not due to a specific neuroendocrine/autonomic lesion effect but may be attributable to the reduced food intake, i.e., nutritional factors.     

Effects of physical training on hypothalamic obesity in rats

Summary Forthy-eight male rats either underwent sterotaxic placement of electrolytic lesions in the ventromedial nucleus of the hypothalamus or had a sham operation and, after a recovery period of at least two weeks, were assigned to either a trained or untrained condition. Training consisted of treadmill running for 120 min per day, 5 days per week, for 12 weeks. At which point all rats were sacrificed to allow the determination of carcass analysis and fat pad lipolysis rates. Both untrained and trained animals with lesions had significantly increased carcass fat. The increased fat content not be attributed to an increased intake since the average daily food consumption of the four groups was not different. Training significantly reduced the fat content in both the lesioned and unlesioned rats. However, the loss in the lesioned rats was about one third less than that of the unlesioned. Training also increased the rate of lipolysis irrespective of whether an animal was lesioned or not. However, the amount of increase was about one third less than in trained normals. Destruction of the ventromedial nucleus of the hypothalamus apparently does not destroy the ability of exercise to alter body composition. The lesions may diminish the capacity of endurance programs to reduce carcass fat. Since the findings relative to lipolysis result from an in vitro investigation, they do not necessarily reflect the events occurring in the in vivo state.     

Feeding studies in weanling rats with dorsomedial hypothalamic lesions: maintenance of competence to compensate for additional calories.

Weanling rats received bilateral electrolytic lesions in the dorsomedial hypothalamus primarily destroying the dorsomedial hypothalamic nuclei (DMN). Sham-operated rats served as controls. After a 14 day postoperative period during which food intake (lab chow) and body weight were recorded, each of the above groups were subdivided into 2 groups. One DMN group and one sham-operated control group were continued on lab chow alone throughout the remainder of the study. The other DMN group and the second control group were given additional calories in the form of a liquid diet by stomach tube during 2 separate periods of 10 and 14 days, respectivly, to increase their caloric intake beyond that taken in spontaneously. Both tube-fed groups reduced their ad lib caloric intake from chow considerably and to the same extent. Body weight gains were similar in tube-fed versus non-tube-fed rats, whether with or without DMN lesions. After the second, 14-day-long tube feeding period, however, DMN rats regulated their body weight somewhat less precisely than the controls. This may be related to their reduced food intake during that time period. The data indicate that weanling rats with DMN lesions, despite their basic hypophagia, do not show a deficit in caloric metering and gross body weight regulation.     

Liquid diet preference in weanling rats with dorsomedial hypothalamic lesions

Two groups of weanling rats received bilateral electrolytic lesions in the ventromedial and dorsomedial hypothalamic nuclei, respectively. Sham-operated animals served as controls. During 14 days post-operation, the intake of standard laboratory chow was measured. The rats then received, in addition to laboratory chow and tap water, a sweet, eggnog-type liquid diet for 17 days, during 14 of which food intake from both diets was measured daily. The liquid diet was then withdrawn and for two weeks laboratory chow was again the sole source of calories. During the availability of the liquid diet, both groups of rats with hypothalamic lesions profoundly reduced their intake of laboratory chow but conspicuously increased their consumption of liquid diet. The rats with dorsomedial lesions consumed as much liquid diet as the controls, while on laboratory chow alone they were highly significantly hypophagic compared with the controls. During the availability of the liquid diet the rats with dorsomedial lesions also became obese, but after the return to a period in which laboratory chow was the sole source of calories they lost this extra fat while again being hypophagic.It is suggested that the hypophagia observed in rats lesioned in the dorsomedial hypothalamic nucleus is not due to a deficiency in caloric metering but rather, alternatively, to (a) aversion to dry food, (b) taste preference for a sweet, liquid diet, (c) a motivational deficit or (d) a motor deficit.     

The effect of cholecystokinin octapeptide and glucagon (1-29) on food intake of weanling rats

Cholecystokinin octapeptide (CCK-8) and glucagon (GLG) decrease food intake of a number of species. However, the responsiveness of rats to the food intake effects of these peptides may develop differentially due to sex, age and/or developmental state. Male and female weanling rats decreased early dark cycle food intake following the administration of 5 and 10 micrograms/kg CCK-8 and male rats were more responsive than female rats, p less than 0.05. GLG did not decrease early dark cycle food intake of either male or female weanling rats. Weanling male rats increased plasma glucose and insulin levels in response to GLG administration, p less than 0.05. Male rats were retested with GLG (250 and 500 micrograms/kg) at 6, 9 and 22 weeks of age. GLG did not decrease food intake of these rats until they reached 9 weeks of age and they were still responsive at 22 weeks of age, p less than 0.05.     

No persistent effect of preweaning nutrition on postweaning food intake, feeding efficiency, or body energy stores in Long-Evans rats.

The purpose of this study was to determine the relative importance of pre- and postweaning nutrition on body mass, body fat, and feeding efficiency in Long-Evans rats up to a period of 18 weeks following weaning. Female rats were bred and pups were redistributed to form large (14-19 pups), normal (11-13 pups) and small (4 pups) litter groups. Weaned rats were housed as pairs (40 pairs) or singletons (n = 16) and fed either a mixed-fat diet (36.6% fat) or a standard chow diet (13.5% fat). Food intake, body mass, and feeding efficiency were measured at 4, 8, 12, and 18 weeks postweaning. Total body fat and depot fat pad mass were also measured at 18 weeks postweaning. At weaning, pups from small litters were fatter (p less than 0.001), and had a greater mass (p less than 0.03) than pups from large litters. There were no persistent effects of preweaning litter size after covarying for preweaning mass on body mass, and postweaning growth, food intake, feeding efficiency, or body fat accretion. Male rats ingesting the mixed-fat diet had a greater body mass (p less than 0.05), greater body fat accretion (p less than 0.008) and a higher feeding efficiency (p less than 0.001) than their chow-fed counterparts, despite an overall lower energy intake (p less than 0.05). Female rats ingesting the mixed-fat diet had a lower food energy intake (p less than 0.005) and a greater feeding efficiency (p less than 0.001) than chow-fed rats during the early postweaning period, only. Thus, postweaning nutrition may play a more important role in postweaning adult mass and depot fat in freely eating rats than early nutritional experiences.     

Diet composition alters the satiety effect of cholecystokinin in lean and obese Zucker rats

Although exogenous administration of the peptide cholecystokinin (CCK) has been shown to reduce food intake in a variety of experimental situations, few studies have examined the influence of dietary content upon CCK's effectiveness, particularly in obese states. To evaluate the effectiveness of CCK administration in animals consuming high fat diets, groups of obese and lean Zucker rats were maintained on laboratory chow (CH), a high fat diet isocaloric to chow (IF), or a hypercaloric fat diet (HF). After a 17 hr fast, rats were given intraperitoneal injections of saline or ascending doses of 0.06 to 2.0 micrograms/kg of the synthetic octapeptide of CCK. On all diets, obese rats required higher doses of CCK to significantly reduce feeding and showed smaller intake reductions than lean rats (p less than 0.001). Despite higher baseline caloric intakes (p less than 0.001), rats of both genotypes maintained on HF displayed larger reductions of intake than those fed IF or CH (p less than 0.001). Intake reductions by either genotype maintained on IF or CH were not reliably different. The manner in which the satiety effect of CCK was enhanced in rats consuming the calorically dense, palatable HF diet is unclear but may be related to orosensory and/or postingestive attributes of the diet.     

破坏大鼠极后区对胆囊收缩素抑制摄食跑速作用的影响

胆囊收缩素(CCK)能抑制大鼠的摄食量和摄食跑速。本文向腹腔内注入CCK(10μg/kg)后15分钟内发现大鼠的摄食量和在迷宫内的摄食跑速都明显降低。破坏大鼠的极后区后,向腹腔内注入等量的CCK,则CCK抑制摄食作用明显减弱,开始的15分钟内摄食量显著增多,摄食跑速明显加快。提示大鼠的极后区在CCK引起的摄食抑制作用中起重要作用,极后区可能是CCK在脑干内的一个重要的感受器。在破坏了极后区同时又破坏了孤束核的动物,亦有降低CCK抑制摄食的作用。但与正常大鼠对照组比较,破坏极后区的大鼠摄食量减少,而摄食跑速没有明显差别。     

Dorsomedial hypothalamic lesions at weaning and ovariectomy after maturity: Somatic and metabolic changes

Weanling Sprague-Dawley rats received lesions in the dorsomedial hypothalamic nuclei or sham operations. Analysis of variance revealed a significant lesion-induced depression of body weight (BW) and food intake (FI). After sexual maturity, bilateral ovariectomy (OVX) and/or sham-ovariectomy (S-OVX) were performed in each of the above groups. OVX produced a significant increase in BW in both lesioned and non-lesioned rats without changes in food intake. Following DMN lesions efficiency of food utilization (EFU) was greater than normal and OVX caused a further significant increase, irrespective of hypothalamic manipulation. DMN lesions, as previously shown, were followed by a reduction in linear growth; subsequent OVX exerted a growth-promoting effect in both DMN-lesioned and sham-lesioned rats. However, OVX did not alter plasma growth hormone or insulin levels. When calculated on the basis of per gram tissue protein, DMN lesions significantly diminshed the incorporation of glucose into lipids of diaphragm and fat pad, but not of liver. DMN lesions had no effect on the incorporation of glucose into glycogen of diaphragm, fat pad or liver. OVX did not produce significant changes in lipogenesis from glucose or incorporation of glucose into glycogen in either sham-lesioned OVX or DMN-lesioned OVX rats. The data support the concept that increased weight gain following OVX can be attributed to factors other than increased food intake. They also support previous findings that DMN lesions lower the BW “settling point” (i.e., both lean body mass and fat commensurately). The data also suggest that the DMNL rat is responsive to various manipulations—in this case OVX—of the adipose tissue mass “settling point”.     

Metabolic and neuroendocrine indices one month after lateral hypothalamic area lesions.

Mature male rats received bilateral electrolytic lateral hypothalamic area lesions (LHAL) or were sham-operated fed ad lib (CON-ADLIB) or sham-operated pair-fed/gained (CON-PF) to LHAL rats. One month later all rats were sacrificed. Rats with LHAL were hypophagic and had reduced body carcass fat, testes, livers, epididymal fat pads (PADS), diaphragms (DIA), and body weight compared to CON-ADLIB. In the liver, LHAL rats incorporated more C14-U-glucose carbon (GLUCINC) into lipid and glycogen than both CON groups, but GLUCINC was similar among CON groups. In PADS, LHAL rats oxidized more glucose carbon (GLUCOX) than CON-ADLIB but less than CON-PF/PG. The latter showed greater GLUCOX than CON-ADLIB. In DIA, LHAL and CON-PF/PG showed reduced GLUCINC into glycogen vs. CON-ADLIB. Plasma glucose was similar among groups, but insulin was lower in LHAL and CON-ADLIB than in CON-PF/PG. Rats with LHAL had lower plasma T3 concentrations than CON-ADLIB, but similar T3 levels compared to CON-PF/PG. Several of the metabolic changes in LHAL rats could be due to hypophagia; however, four out of nine metabolic indices, glucose carbon incorporation into liver lipid and glycogen and epididymal fat pad lipid and oxidation, were significantly different from CON-PF/PG, i.e., they were independent of food intake. Possibly then, they are due to a lesion effect other than on feeding mechanisms. Some aspects of metabolism that were previously found to be altered 48 h after LHAL were recovered, whereas others apparently were not.     

The effect of increased adiposity on food intake of juvenile rats

The regulation of feeding by body adiposity, as proposed by the lipostatic theory, has been well demonstrated in adult animals. However, mechanisms controlling long-term feeding in juvenile animals have not been well defined. In this study, increased adiposity was induced in young rats through oral gavage. Four-week-old rats were divided into three groups; ad lib feeding (100%-AL), tubefed 100% (100%-TF) or 150% (150%-TF) of ad lib intake. Animals were tube-fed these levels for one week. At the end of this period, one third of each group were killed and all remaining animals were returned to ad lib feeding for either 4 or 29 days later. During this recovery period, the 150%-TF group had significantly depressed food intakes for the first 4 days in comparison to the 100%-TF group. Afterwards, there were no significant differences between these two groups for the remainder of study. Overfeeding induced significant increases in total body fat in the 150%-TF group (24.8 grams) in comparison to the 100%-AL group (11.0 grams) and the 100%-TF group (14.0 grams). By day five of recovery, only the 150% group exhibited a significant loss of body fat. Total carcass protein and ash were not different between groups at any period. At day 29 of recovery, there were no treatment differences in carcass weight or fat content. Loss of body fat from the 150%-TF rats was associated with the decline in caloric intake. It appears that food intake is affected by relative adiposity during the dynamic phase of growth.