Summary
In a series of experiments designed to test further our hypothesis that brain tryptophan and 5-hydroxyindole levels vary post-prandially as a function of the serum tryptophan to competitor ratio (i.e., ratio of serum tryptophan concentration to the sum of the concentrations of competing neutral amino acids), rats fasted overnight were allowed to consume for two hours single meals containing carbohydrates, fats, and various amino acids:Diet 1 contained no amino acids;Diet 2 contained five neutral amino acids known to compete with tryptophan for uptake into the brain;Diet 3 lacked tryptophan and the five competitors, but contained twelve non-neutral amino acids found in dietary protein;Diet 4 contained tryptophan and these same twelve non-neutral amino acids. The diet-induced modifications in brain tryptophan and 5-hydroxyindoles followed closely the changes in the serum tryptophan/competitor ratio, but not in serum tryptophan alone: The ingestion ofDiet 4 raised serum tryptophan, but not the serum ratio, brain tryptophan or 5-hydroxyindoles;Diet 3 did not raise serum tryptophan, but did elevate the serum ratio, brain tryptophan and 5-hydroxyindoles.Diet 2 caused major reductions in serum tryptophan, the serum ratio, and brain tryptophan and the 5-hydroxyindoles. This diet might provide a simple, atraumatic means for lowering brain serotonin in studies of the physiology of serotonergic neurons. These studies provide further evidence that the effect of insulin on brain tryptophan uptake is not direct, but instead mediated via insulin-induced changes in the serum tryptophan/competitor ratio.
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Biggio, G., F. Fadda, A. Tagliamonte, andG. L. Gessa: Rapid Depletion of Serum Tryptophan, Brain Tryptophan, Serotonin, and 5-hydroxyindoleacetic Acid by a Tryptophan-Free Diet. Life Sci.14, 1321–1329 (1974).
Blasberg, R., andA. Lajtba: Substrate Specificity of Steady-State Amino Acid Transport in Mouse Brain Slices. Arch. Biochem. Biophys.112, 361–377 (1965).
Carlsson, A., W. Kehr, M. Lindqvlst, T. Magnussen, andC. V. Atack: Regulation of Monoamine Metabolism in the Central Nervous System. Pharmacol. Rev.24, 371–384 (1974).
Curzon, G., andA. R. Green: Rapid Method for the Determination of 5-hydroxytryptamine and 5-hydroxyindoleacetic Acid in Small Regions of Rat Brain. Br. J. Pharmacol.39, 635–655 (1970).
Denckla, W. D., andH. K. Dewey: Determination of Tryptophan in Plasma, Liver, and Urine. J. Lab. Clin. Med.69, 160–169 (1967).
Fernstrom, J. D., andR. J. Wurtman: Brain Serotonin Content: Increase Following Ingestion of Carbohydrate Diet. Science174, 1023–1025 (1971).
Fernstrom, J. D., andR. J. Wurtman: Brain Serotonin Content: Physiological Regulation by Plasma Neutral Amino Acids.178, 414–416 (1972).
Femstrom, J. D., andR. J. Wurtman: Control of Brain Serotonin Levels by the Diet. In: Advances in Biochemical Psychopharmacology, Vol. 11 (Costa, E., G. L. Gessa, andM. Snadler, eds.), pp. 133–142. New York: Raven Press. 1974.
Fernstrom, J. D., F. Larin, andR. J. Wurtman: Correlations Between Brain Tryptophan and Plasma Neutral Amino Acid Levels Following Food Consumption in Rats. Life Sci.13, 517–524 (1973).
Fernstrom, J. D., D. V. Faller, andH. Shahshelowitz: Acute Diet-Induced Reduction in Brain Serotonin. Trans. Am. Soc. Neurochem.5, 156 (1974).
Fernstrom, J. D., B. K. Madras, H. N. Munro, andR. J. Wurtman: Nutritional Control of the Synthesis of 5-hydroxytryptamine in the Brain. In: Aromatic Amino Acids in the Brain (Wohtenholme, G. E. W., andD. W. Fitzsimons, eds.), pp. 153–173. New York: Elsevier. 1974.
Lipsett, D., B. K. Madras, R. J. Wurtman, andH. N. Munro: Serum Tryptophan Level After Carbohydrate Ingestion: Selective Decline in Non-Albinum-Bound Tryptophan Coincident with Reduction in Serum Free Fatty Acids. Life Sci.12, 57–64 (1973).
Madras, B. K., E. L. Cohen, J. D. Fernstrom, H. N. Munro, andR. J. Wurtman: Dietary Carbohydrate Increases Brain Tryptophan and Decreases Serum Free Tryptophan. Nature244, 34–35 (1973).
Madras, B. K., E. L. Cohen, H. N. Munro, andR. J. Wurtman: Elevation of Serum Free Tryptophan but not Brain Tryptophan by Serum Non-Esterified Fatty Acids. In: Advances in Biochemical Psychopharmacology, Vol. 11 (Costa, E., G. L. Gessa, andM. Sandler, eds.), pp. 143 to 151. New York: Raven Press. 1974.
McMenamy, R. H., andJ. L. Oncley: The Specific Binding of L-Tryptophan to Serum Albumin. J. Biol. Chem.233, 1436–1447 (1958).
Rogers, Q., andA. E. Harper: Amino Acid Diets and Maximal Growth in the Rat. J. Nutr.87, 267–273 (1965).
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A preliminary report of these findings has appeared elsewhere (Fernstrom et al., 1974). These studies were supported in part by grants from Merck, Sharp, and Dohme, The Grant Foundation, and The National Aeronautics and Space Administration (NGL 22-009-638 to Dr. R. J. Wurtman).
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Fernsttom, J.D., Faller, D.V. & Shabshelowitz, H. Acute reduction of brain serotonin and 5-HIAA following food consumption: Correlation with the ratio of serum tryptophan to the sum of competing neutral amino acids. J. Neural Transmission 36, 113–121 (1975). https://doi.org/10.1007/BF01256759
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DOI: https://doi.org/10.1007/BF01256759