The objective of this research is to examine relationships among diet, blood and brain amino acid patterns and concentrations, brain neurotransmitter concentrations and amino acid metabolism, and feeding behavior. Changes in blood and brain amino acid and brain serotonin and catecholamine content of rats that have ingested diets differing greatly in protein content will be determined at intervals after ingestion of a meal. Effects of meals containing additions of amino acids that are elevated in brain or blood will be tested for their ability to influence the amount of protein consumed by rats subsequently offered the choice of two diets differing in protein content. Mini-pumps will be used to infuse directly into the brain amino acids that influence food intake or preference in order to determine whether or not effects on feeding behavior can be reproduced by infusions into specific areas of the brain. Rats with lesions in brain areas known to be associated with control of food or amino acid intake will be used to determine whether some such lesions will eliminate the response to dietary additions or infusions of amin acids that alter food intake or preference. Such measurements will be made on rats that have eaten diets containing increased amounts of amino acids that compete for uptake into brain with the amino acid that is limiting for growth; atypical, non-protein amino acids will also be used. Lesioning and infusion methods will be used to determine if the reduced food intake caused by dietary GABA may be due to peripheral effects or possibly to direct effects on the CNS. Effects of alterations in the brain amino acid pool (by either dietary imbalances of amino acids or changes in total protein intake) on the integrity of protein-synthesizing systems (polysomes) and on protein synthesis and turnover will be examined with in vitro and in vivo systems. These studies can contribute information important in treatment of various conditions such as liver disease, genetic defects, and behavioral disorders such as obesity and anorexia nervosa.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK010747-20
Application #
3224714
Study Section
Nutrition Study Section (NTN)
Project Start
1976-09-01
Project End
1987-03-31
Budget Start
1986-04-01
Budget End
1987-03-31
Support Year
20
Fiscal Year
1986
Total Cost
Indirect Cost
Name
University of Wisconsin Madison
Department
Type
Earth Sciences/Resources
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
Tews, J K; Repa, J J; Harper, A E (1992) Protein selection by rats adapted to high or moderately low levels of dietary protein. Physiol Behav 51:699-712
Tovar, A R; Tews, J K; Torres, N et al. (1991) Neutral amino acid transport into rat skeletal muscle: competition, adaptive regulation, and effects of insulin. Metabolism 40:410-9
Tews, J K; Repa, J J; Harper, A E (1991) Branched-chain and other amino acids in tissues of rats fed leucine-limiting amino acid diets containing norleucine. J Nutr 121:364-78
Eisenstein, R S; Harper, A E (1991) Relationship between protein intake and hepatic protein synthesis in rats. J Nutr 121:1581-90
Tews, J K; Repa, J J; Harper, A E (1990) Norleucine: a branched-chain amino acid analog affecting feeding behavior of rats. Pharmacol Biochem Behav 35:911-21
Tackman, J M; Tews, J K; Harper, A E (1990) Dietary disproportions of amino acids in the rat: effects on food intake, plasma and brain amino acids and brain serotonin. J Nutr 120:521-33
Anderson, S A; Tews, J K; Harper, A E (1990) Dietary branched-chain amino acids and protein selection by rats. J Nutr 120:52-63
Harper, A E; Peters, J C (1989) Protein intake, brain amino acid and serotonin concentrations and protein self-selection. J Nutr 119:677-89
Tovar, A; Tews, J K; Torres, N et al. (1988) Some characteristics of threonine transport across the blood-brain barrier of the rat. J Neurochem 51:1285-93
Tews, J K; Repa, J J; Harper, A E (1988) Induction of conditioned taste aversion in rats by GABA or other amino acids. Physiol Behav 42:591-7