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Advanced Science | Guo Feifan's Team Reveals How Brain "Amino Acid Sensor" Regulates Brown Adipose Tissue Thermogenesis, Offering a Novel Target for Obesity Treatment
Nature Comunications | Guo Feifan's team uncovers the role and mechanism of central amino acid transporters in age-dependent obesity regulation.
Advanced Science | Guo Feifan's team discovers novel gut probiotics improving glucose and lipid metabolism disorders.
PNAS | The team of Guo Feifan revealed the regulatory mechanism of intestinal ATF4 through the gut-brain axis on the behavioral changes related to chronic stress
Nature Communications | Feifan Guo's Team Discovers the Role and Mechanism of Bradykinin in Promoting BAT Thermogenesis and WAT Browning
Life Metabolism | The team of Guo Feifan discovered the function and mechanism of the leucine-deficient diet in improving depressive-like behaviors
SLC7A14 imports GABA to lysosomes and impairs hepatic insulin sensitivity via inhibiting mTORC2
Inhibition of c-Jun in AgRP neurons increases stress-induced anxiety and colitis susceptibility
Hepatokine ERAP1 regulates skeletal muscle insulin sensitivity
Intermittent Leucine Deficiency Regulating Insulin Sensitivity
Amygdalar PKC-δ neurons sense leucine deprivation and promote WAT browning
Autophagy inhibition prevents glucocorticoid-increased adiposity via suppressing BAT whitening
Amino acid sensing protein ATF4 regulates intestinal homeostasis by sensing amino acids
AgRP neuronal ATF4 regulates energy metabolism