Add to ORKGNeural circuits for appetites are regulated by both homeostatic perturbations and ingestive behaviour. However, the circuit organization that integrates these internal and external stimuli is unclear. Here we show in mice that excitatory neural populations in the lamina terminalis form a hierarchical circuit architecture to regulate thirst. Among them, nitric oxide synthase-expressing neurons in the median preoptic nucleus (MnPO) are essential for the integration of signals from the thirst-driving neurons of the subfornical organ (SFO). Conversely, a distinct inhibitory circuit, involving MnPO GABAergic neurons that express glucagon-like peptide 1 receptor (GLP1R), is activated immediately upon drinking and monosynaptically inhibits SFO thi...
Eating food and drinking water are fundamental requirements for animal survival. Understanding how a...
Much progress has been made during the past 30 years with respect to elucidating the neural and endo...
Food and water are rewarding in part because they satisfy our internal needs1,2. Dopaminergic neuron...
Neural circuits for appetites are regulated by both homeostatic perturbations and ingestive behaviou...
Neural circuits for appetites are regulated by both homeostatic perturbations and ingestive behaviou...
Animals must maintain internal state within narrow limits to survive. This process, known as homeost...
The physiological conditions within our bodies are remarkably stable. To maintain this internal stab...
Fine balance between loss-of water and gain-of water is essential for maintaining body fluid homeost...
An important aspect of thirst is its quick quenching. When thirsty, you drink a glass of water for a...
Thirst is the basic instinct to drink water. Previously, it was shown that neurons in several circum...
Thirst is the basic instinct to drink water. Previously, it was shown that neurons in several circum...
For thirsty animals, fluid intake provides both satiation and pleasure of drinking. How the brain pr...
Fluid intake is an essential innate behaviour that is mainly caused by two distinct types of thirst1...
Fluid intake is an essential innate behaviour that is mainly caused by two distinct types of thirst....
Satiation is the process by which eating and drinking reduce appetite. For thirst, oropharyngeal cue...
Eating food and drinking water are fundamental requirements for animal survival. Understanding how a...
Much progress has been made during the past 30 years with respect to elucidating the neural and endo...
Food and water are rewarding in part because they satisfy our internal needs1,2. Dopaminergic neuron...
Neural circuits for appetites are regulated by both homeostatic perturbations and ingestive behaviou...
Neural circuits for appetites are regulated by both homeostatic perturbations and ingestive behaviou...
Animals must maintain internal state within narrow limits to survive. This process, known as homeost...
The physiological conditions within our bodies are remarkably stable. To maintain this internal stab...
Fine balance between loss-of water and gain-of water is essential for maintaining body fluid homeost...
An important aspect of thirst is its quick quenching. When thirsty, you drink a glass of water for a...
Thirst is the basic instinct to drink water. Previously, it was shown that neurons in several circum...
Thirst is the basic instinct to drink water. Previously, it was shown that neurons in several circum...
For thirsty animals, fluid intake provides both satiation and pleasure of drinking. How the brain pr...
Fluid intake is an essential innate behaviour that is mainly caused by two distinct types of thirst1...
Fluid intake is an essential innate behaviour that is mainly caused by two distinct types of thirst....
Satiation is the process by which eating and drinking reduce appetite. For thirst, oropharyngeal cue...
Eating food and drinking water are fundamental requirements for animal survival. Understanding how a...
Much progress has been made during the past 30 years with respect to elucidating the neural and endo...
Food and water are rewarding in part because they satisfy our internal needs1,2. Dopaminergic neuron...