Minireview: CNS mechanisms of leptin action
JN Flak, MG Myers Jr - Molecular Endocrinology, 2016 - academic.oup.com
Molecular Endocrinology, 2016•academic.oup.com
Leptin is an adipocytokine that circulates in proportion to body fat to signal the repletion of
long-term energy stores. Leptin acts via its receptor, LepRb, on specialized neuronal
populations in the brain (mainly in the hypothalamus and brainstem) to alter motivation and
satiety, as well as to permit energy expenditure and appropriate glucose homeostasis.
Decreased leptin, as with prolonged caloric restriction, promotes a powerful orexigenic
signal, decreases energy use via a number of neuroendocrine and autonomic axes, and …
long-term energy stores. Leptin acts via its receptor, LepRb, on specialized neuronal
populations in the brain (mainly in the hypothalamus and brainstem) to alter motivation and
satiety, as well as to permit energy expenditure and appropriate glucose homeostasis.
Decreased leptin, as with prolonged caloric restriction, promotes a powerful orexigenic
signal, decreases energy use via a number of neuroendocrine and autonomic axes, and …
Abstract
Leptin is an adipocytokine that circulates in proportion to body fat to signal the repletion of long-term energy stores. Leptin acts via its receptor, LepRb, on specialized neuronal populations in the brain (mainly in the hypothalamus and brainstem) to alter motivation and satiety, as well as to permit energy expenditure and appropriate glucose homeostasis. Decreased leptin, as with prolonged caloric restriction, promotes a powerful orexigenic signal, decreases energy use via a number of neuroendocrine and autonomic axes, and disrupts glucose homeostasis. Here, we review what is known about cellular leptin action and focus on the roles for specific populations of LepRb-expressing neurons for leptin action.
Oxford University Press