Tolbutamide affects food ingestion in a manner consistent with its glycemic effects in the rat.

The sulphonylurea tolbutamide possesses the ability to stimulate insulin release, produce hypoglycemia and increase food intake; however, no study has investigated the effects of moderate doses which do not produce frank hypoglycemia. Forty male rats received injections of tolbutamide at 0, 5, 15, 25 or 50 mg/kg body weight. The injections terminated a 2-hr fast and occurred at light offset, insuring a meal. Food intakes were then recorded for two hr following injection. Tolbutamide at 5 and 15 mg doses decreased food intake during the first half-hour or hour, respectively. In parallel experiments, 10 rats were sampled for blood prior to injection of tolbutamide or saline at doses cited above, and again at 10 and 40 min following injection in the absence of food. Plasma was then analyzed for insulin and glucose. Both 5 and 15 mg tolbutamide produced a mild, reliable increase in insulin accompanied by a decrease of 5 to 15 mg/dl in plasma glucose. On the other hand, the 50 mg dose produced a marked increase in insulin and a decrease of approximately 25% in plasma glucose. Thus, the present studies suggest that when endogenous insulin levels are modestly raised by tolbutamide, such that only moderate reductions of circulating glucose were observed, decreases in food intake occur.

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.

Effects of a glucosidase inhibitor (acarbose, BAY g 5421) on the development of obesity and food motivated behavior in Zucker (fafa) rats.

BAY g 5421 (acarbose) inhibits carbohydrate digestion in the gut, thereby reducing the rate of glucose absorption. This experiment tested whether long term administration of acarbose to developing Zucker "fatty" (fafa) rats would, by reducing several lipogenic factors, attenuate lipid deposition and reduce the hyperphagia and increased food motivated behavior of these animals. From 7 to 20 weeks of life groups of fatty and lean (FaFa) control rats were fed 0, 20 or 40 mg acarbose/100 g maintenance diet (45% carbohydrate, 35% fat, 20% protein calories), while an additional fatty and lean group were pair-fed to respective 40 mg acarbose groups. Lean groups fed acarbose exhibited dose dependent reductions of body weight, insulin, triglycerides, retroperitoneal and epididymal pad weight, adipocyte size, LPL activity/cell (retroperitoneal pad only), and lipid deposition both in total grams of fat and as a percentage of carcass weight. Fatty groups fed acarbose exhibited dose dependent reductions of insulin, blood glucose, retroperitoneal pad weight, and, at one of the two doses used, significantly lowered body weight, (40 mg), triglycerides (20 mg) and cholesterol (20 mg). However, acarbose-fed fatty groups failed to show significant reductions of adipocyte size, number or LPL activity/cell in retroperitoneal and epididymal fat pads, and maintained their obese body composition, on a percentage basis, at levels not significantly different from that of the 0 mg fatty control group. Acarbose administration led to an initial dose dependent reduction of food intake in both genotypes, which persisted for the lean groups. Fatties fed the 20 mg dose showed a gradual tendency (ns) towards increased daily intake, lever pressed at elevated rates for food pellets, and refed at faster rates following fasting. Fatties fed the 40 mg dose maintained their daily intake at fatty control levels, did not lever press at elevated rates, and showed significantly reduced refeeding following fasting. The 40 mg fatty and both lean acarbose treated groups had decreased sucrose solution preference. Possible bases for these differing effects of the drug on feeding behavior by the groups are considered.