Our health requires continual protein synthesis for maintaining and repairing tissues. For protein synthesis to function, all the essential (indispensable) amino acids (IAAs) must be available in the diet, along with those AAs that the cells can synthesize (the dispensable amino acids). Here we review studies that have shown the location of the detector for IAA deficiency in the brain, specifically for recognition of IAA deficient diets (IAAD diets) in the anterior piriform cortex (APC), with subsequent responses in downstream brain areas.
View Article and Find Full Text PDFBackground: Low protein amounts are used in ketogenic diets (KDs), where an essential (indispensable) amino acid (IAA) can become limiting. Because the chemically sensitive, seizurogenic, anterior piriform cortex (APC) is excited by IAA limitation, an imbalanced KD could exacerbate seizure activity.
Objective: We questioned whether dietary IAA depletion worsens seizure activity in rodents fed KDs.
The anterior piriform cortex (APC) is activated by, and is the brain area most sensitive to, essential (indispensable) amino acid (IAA) deficiency. The APC is required for the rapid (20 min) behavioral rejection of IAA deficient diets and increased foraging, both crucial adaptive functions supporting IAA homeostasis in omnivores. The biochemical mechanisms signaling IAA deficiency in the APC block initiation of translation in protein synthesis via uncharged tRNA and the general amino acid control kinase, general control nonderepressing kinase 2.
View Article and Find Full Text PDFCurr Opin Clin Nutr Metab Care
January 2013
Purpose Of Review: To understand the principles of amino acid deprivation sensing in the brain and its behavioral and metabolic outcomes with an emphasis on the current literature.
Recent Findings: Sensing essential amino acid (EAA) depletion occurs in the anterior piriform cortex (APC) via general control nonderepressible 2 (GCN2) binding to deacylated tRNA and subsequent glutamatergic signaling to influence behavior. Mapping of the APC output during EAA insufficiency shows axons projecting to the hypothalamus as well as other regions that are involved in feeding and locomotion.