Animal gastrointestinal tract is not only a digestive organ, but also a nutrient sensing organ which detects luminal nutrient and thus can regulate food intake. There are many amino acid sensing receptors and transpor...Animal gastrointestinal tract is not only a digestive organ, but also a nutrient sensing organ which detects luminal nutrient and thus can regulate food intake. There are many amino acid sensing receptors and transporters in the gut. Amino acids sensing by these receptors and transporters can stimulate the intestinal endocrine cells to release a variety of gut hormones. These hormones trigger a series of physiological effects via the nerve system. This review summarized the recent advance on the amino acid sensing receptors and transporters in the gastrointestinal tract, the gut hormones released from the intestinal endocrine cells and the hormones-induced signal transduction between the gut and brain. A better understanding of these processes may help to gain further insight into the specific role of amino acids in digestion and provide guidelines in developing strategy for the better use of amino acids in the diet.展开更多
Essential amino acids(EAAs)are crucial nutrients,whose levels change in rodents and patients with depression.However,how the levels of a single EAA affects depressive behaviors remains elusive.Here,we demonstrate that...Essential amino acids(EAAs)are crucial nutrients,whose levels change in rodents and patients with depression.However,how the levels of a single EAA affects depressive behaviors remains elusive.Here,we demonstrate that although deprivation of the EAA leucine has no effect in unstressed mice,it remarkably reverses the depression-like behaviors induced by chronic restraint stress(CRS).This beneficial effect is independent of feeding and is applicable to the dietary deficiency of other EAAs.Furthermore,the effect of leucine deprivation is suppressed by central injection of leucine or mimicked by central injection of leucinol.Moreover,hypothalamic agouti-related peptide(AgRP)neural activity changes during CRS and leucine deprivation,and chemogenetically inhibiting AgRP neurons eliminates the antidepressant effects of leucine deprivation.Finally,the leucine deprivation-regulated behavioral effects are mediated by amino acid sensor general control non-derepressible 2(GCN2)in AgRP neurons.Taken together,our results suggest a new drug target and/or dietary intervention for the reduction of depressive symptoms.展开更多
基金supported by the National Key Basic Research Program of China (2013CB127300)Natural Science Foundation of China (31430082)+1 种基金Jiangsu Province Natural Science Foundation (BK20130058)the Collaborative Innovation Center of Meat Production and Processing
文摘Animal gastrointestinal tract is not only a digestive organ, but also a nutrient sensing organ which detects luminal nutrient and thus can regulate food intake. There are many amino acid sensing receptors and transporters in the gut. Amino acids sensing by these receptors and transporters can stimulate the intestinal endocrine cells to release a variety of gut hormones. These hormones trigger a series of physiological effects via the nerve system. This review summarized the recent advance on the amino acid sensing receptors and transporters in the gastrointestinal tract, the gut hormones released from the intestinal endocrine cells and the hormones-induced signal transduction between the gut and brain. A better understanding of these processes may help to gain further insight into the specific role of amino acids in digestion and provide guidelines in developing strategy for the better use of amino acids in the diet.
基金This work was supported by the National Natural Science Foundation of China(31830044,91957207,81870592,82270905,81970742,82000764,82170868,and 81970731)The National Key R&D Program of China(grant 2018YFA0800600).
文摘Essential amino acids(EAAs)are crucial nutrients,whose levels change in rodents and patients with depression.However,how the levels of a single EAA affects depressive behaviors remains elusive.Here,we demonstrate that although deprivation of the EAA leucine has no effect in unstressed mice,it remarkably reverses the depression-like behaviors induced by chronic restraint stress(CRS).This beneficial effect is independent of feeding and is applicable to the dietary deficiency of other EAAs.Furthermore,the effect of leucine deprivation is suppressed by central injection of leucine or mimicked by central injection of leucinol.Moreover,hypothalamic agouti-related peptide(AgRP)neural activity changes during CRS and leucine deprivation,and chemogenetically inhibiting AgRP neurons eliminates the antidepressant effects of leucine deprivation.Finally,the leucine deprivation-regulated behavioral effects are mediated by amino acid sensor general control non-derepressible 2(GCN2)in AgRP neurons.Taken together,our results suggest a new drug target and/or dietary intervention for the reduction of depressive symptoms.
