Effect of phenylpropanolamine on diet selection in rats

The effects of phenylpropanolamine on Zucker rats selected for fat food preference

Treatments of human and rodent obesity frequently involve administration of amphetamine derivatives, much like phenylpropanolamine, which suppress food intake. The Zucker rat is a commonly employed model of youth-onset obesity in which the homozygous genotype manifests hyperphagia as well as other characteristics that parallel human obesity. Using a macronutrient selection procedure, we examined phenylpropanolamine's differential actions in controlling dietary intake, spontaneous open-field activity, and regional hypothalamic neurotransmitter levels in obese female Zucker rats of varying fat food preference. We hypothesized that phenylpropanolamine would alter hypothalamic monoamine levels differently in low-fat preferring and high-fat preferring Zucker rats, and hence affect feeding behavior and activity differently in these two groups. It was found that in high-fat preferring animals, phenylpropanolamine significantly decreased spontaneous open-field activity, decreased only carbohydrate caloric intake, and increased serotonin and 5-HIAA levels in the paraventricular nucleus (PVN). In low-fat preferring animals, phenylpropanolamine decreased carbohydrate, protein, and total caloric intake, had no significant effect of spontaneous activity, and increased serotonin and 5-hydroxyindole acetic acid levels in the PVN. Inherent and induced physiological differences of low-fat and high-fat preferring animals are discussed as well as phenylpropanolamine's potential in combination drug therapy for the treatment of human hyperphagic obesity.

Peripheral administration of urocortin suppresses operant responding for food reward

The effects of peripheral systemic administration of urocortin on operant responding to obtain food were investigated using three separate concentrations. The drug was administered intraparitoneally at a concentration of 10 microg/ml/Kg, 5 microg/ml/Kg, and 0 microg/ml/Kg suspended in saline at a volume of 1 ml/Kg to Sprague-Dawley rats fifteen minutes prior to being exposed to an operant bar press task. Eleven subjects were used, each receiving a single injection of each concentration on separate days with the order of treatment counterbalanced. The results indicated that the administration of urocortin in a dose dependent manner reduced responding of food deprived subjects for a food reward in a thirty minute session. These data indicated that the peripheral administration of urocortin reduced the motivation of food deprived subjects to respond.

Effects of phenylpropanolamine infusion and withdrawal on body weight and dietary composition in male and female rats

Male and female rats with ad lib access to separate sources of carbohydrate, fat, and protein were implanted with minipumps providing one of three dosages (0.0, 40.0, or 80.0 mg/kg/day) of phenylpropanolamine (PPA) for 2 weeks. Body weight, macronutrient intake, and water consumption were measured daily before, during, and after PPA treatment. Phenylpropanolamine lowered body weight and caloric intake in males and females, and water consumption in females, but did not alter dietary composition in either sex. After PPA termination, caloric intake returned to control levels in both males and females. However, body weight returned to control levels in males only, while PPA-treated females continued to weigh less than controls. Phenylpropanolamine termination was associated with significant increases in water consumption and the percentage of total calories consumed from protein and reductions in the percentage of calories from carbohydrate in males. In contrast, water and macronutrient consumption was similar comparing PPA-treated females to controls after drug termination. These results suggest there are sex differences in the effects of PPA termination on water and macronutrient consumption that result in differential weight gain in males and females.

A review of the physiological bases of the anorexic action of phenylpropanolamine (d,1-norephedrine)

Phenylpropanolamine (PPA) is a phenethylamine that induces a variety of effects including anorexia and weight loss. The present review compares the acute anorexic effects of PPA with those of amphetamine in animals and humans, describes the persistent chronic effects of PPA on feeding as well as differences in anorexic potency between the norephedrine enantiomers (d-norephedrine less than 1-norephedrine) and summarizes the generality of PPA anorexia. The review also describes the putative mechanisms by which PPA is thought to reduce feeding behavior including alteration of gastric emptying and interaction with central nervous system neurons.

Evaluation of the pharmacological similarities between phenylpropanolamine and amphetamine: effects on schedule-controlled behavior

In an effort to determine the degree to which the repeated administration of phenylpropanolamine (PPA) results in the development of tolerance to its disruptive effects on operant responding as well as cross-tolerance to the effects of acutely administered amphetamine, water-deprived rats were first trained on a fixed-ratio 5 (FR-5) schedule for water presentation. Dose-response curves for the effects of PPA and amphetamine (administered IP, 15 min presession) were then determined (ED50 = 35.0 and 2.6 mg/kg, respectively) followed by the chronic administration of 40.0 mg/kg PPA (administered IP, 15 min prior to each session). When responding returned to prechronic rates, the dose-response curves were redetermined for both PPA (ED50 = 220 mg/kg) and amphetamine (ED50 = 4.8 mg/kg). In a second set of rats, trained under similar conditions, it was observed that pretreatment with alpha-methyltyrosine (AMT, 100 mg/kg IP, 2 h presession) antagonized the disruptive effects of both PPA and amphetamine, whereas pretreatment with reserpine (0.31 mg/kg, IP, 12 h presession) antagonized the disruptive effects of PPA, but exacerbated the disruptive effects of amphetamine. In a separate experiment, the repeated administration of PPA 100 mg/kg or 200 mg/kg IP resulted in no long-lasting depletions of rat striatal dopamine, serotonin, or 3,4-dihydroxyphenylacetic acid (DOPAC) concentrations. These observations indicate that PPA and amphetamine share a similar mechanism of action to the degree that cross-tolerance develops, but which is nonetheless dissociable with respect to their differential sensitivity to antagonists and their neurotoxic efficacy.