Add to ORKGThe underlying molecular pathophysiology of feeding disorders, particularly in peripheral organs, is still largely unknown. A range of molecular factors encoded by appetite-regulating genes are already described to control feeding behaviour in the brain. However, the important role of the gastrointestinal tract in the regulation of appetite and feeding in connection to the brain has gained more attention in the recent years. An example of such inter-organ connection can be the signals mediated by leptin, a key regulator of body weight, food intake and metabolism, with conserved anorexigenic effects in vertebrates. Leptin signals functions through its receptor (lepr) in multiple organs, including the brain and the gastrointestinal tract. So ...
Expression and distribution of leptin and ghrelin in the digestive ap-paratus of DIO (diet-induced o...
Leptin, a hormone secreted by peripheral adipose tissues, regulates the appetite in animals. Recentl...
Hypoxia is the most widespread deleterious consequence of eutrophication and has become a major caus...
The underlying molecular pathophysiology of feeding disorders, particularly in peripheral organs, is...
The underlying molecular pathophysiology of feeding disorders, particularly in peripheral organs, is...
The hormone leptin is a key regulator of body weight, food intake and metabolism. In mammals, leptin...
The signal mediated by leptin hormone and its receptor is a major regulator of body weight, food int...
The hormone leptin is a peripheral metabolic signal and an important regulator of energy balance. In...
The structure, function, and tissue specific expression profiles of neuropeptides involved in regula...
The expression and localization of leptin (A and B) and its receptor family in control and diet-indu...
The gut microbiota regulates metabolic pathways that modulate the physiological state of hunger or s...
The gut microbiota regulates metabolic pathways that modulate the physiological state of hunger or s...
In mammals, knockout of LEPR results in a hyperphagic, morbid obese, and diabetic phenotype, which s...
Expression and distribution of leptin and ghrelin in the digestive ap-paratus of DIO (diet-induced o...
Leptin, a hormone secreted by peripheral adipose tissues, regulates the appetite in animals. Recentl...
Hypoxia is the most widespread deleterious consequence of eutrophication and has become a major caus...
The underlying molecular pathophysiology of feeding disorders, particularly in peripheral organs, is...
The underlying molecular pathophysiology of feeding disorders, particularly in peripheral organs, is...
The hormone leptin is a key regulator of body weight, food intake and metabolism. In mammals, leptin...
The signal mediated by leptin hormone and its receptor is a major regulator of body weight, food int...
The hormone leptin is a peripheral metabolic signal and an important regulator of energy balance. In...
The structure, function, and tissue specific expression profiles of neuropeptides involved in regula...
The expression and localization of leptin (A and B) and its receptor family in control and diet-indu...
The gut microbiota regulates metabolic pathways that modulate the physiological state of hunger or s...
The gut microbiota regulates metabolic pathways that modulate the physiological state of hunger or s...
In mammals, knockout of LEPR results in a hyperphagic, morbid obese, and diabetic phenotype, which s...
Expression and distribution of leptin and ghrelin in the digestive ap-paratus of DIO (diet-induced o...
Leptin, a hormone secreted by peripheral adipose tissues, regulates the appetite in animals. Recentl...
Hypoxia is the most widespread deleterious consequence of eutrophication and has become a major caus...
