Re-examination of Dietary Amino Acid Sensing Reveals a GCN2-Independent Mechanism
نویسندگان
چکیده
Animals cannot synthesize nine essential amino acids (EAAs) and must therefore obtain them from food. Mice reportedly reject food lacking a single EAA within the first hour of feeding. This remarkable phenomenon is proposed to involve post-ingestive sensing of amino acid imbalance by the protein kinase GCN2 in the brain. Here, we systematically re-examine dietary amino acid sensing in mice. In contrast to previous results, we find that mice cannot rapidly identify threonine- or leucine-deficient food in common feeding paradigms. However, mice attain the ability to identify EAA-deficient food following 2 days of EAA deprivation, suggesting a requirement for physiologic need. In addition, we report that mice can rapidly identify lysine-deficient food without prior EAA deficit, revealing a distinct sensing mechanism for this amino acid. These behaviors are independent of the proposed amino acid sensor GCN2, pointing to the existence of an undescribed mechanism for rapid sensing of dietary EAAs.
منابع مشابه
Rapid Sensing of Dietary Amino Acid Deficiency Does Not Require GCN2.
Animals are unable to synthesize the nine essential amino acids (EAAs) and consequently must obtain them from their food. In 2005, two papers proposed an extraordinary mechanism for dietary amino-acid sensing (Hao et al., 2005; Maurin et al., 2005). According to these reports, the consumption of food lacking a single EAA leads to the development of an amino-acid imbalance in the anterior pirifo...
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