Noradrenergic inhibition of definitive POMC neurons through direct and indirect mechanisms
Olivier Lavoie, Audrey Turmel, Axelle Khouma, Moein Minbashi Moeini, Chen Liu, Natalie J. Michael, Alexandre Caron

TL;DR
Norepinephrine inhibits POMC neurons in the brain through direct and indirect pathways, but this inhibition is not essential for regulating energy balance.
Contribution
The study reveals both direct and indirect mechanisms of ADRA2A-mediated inhibition of POMC neurons and shows its limited role in energy balance regulation.
Findings
Norepinephrine and UK 14,304 inhibit POMC neurons via ADRA2A-dependent potassium conductances.
Indirect mechanisms also contribute to the inhibition, as synaptic transmission affects the response.
Deleting Adra2a in POMC neurons modestly impairs glucose tolerance in males but has minimal impact on energy balance.
Abstract
Norepinephrine is a key neuromodulator of hypothalamic circuits that regulate energy balance. Previous studies suggested that norepinephrine inhibits proopiomelanocortin (POMC) neurons of the arcuate nucleus via α2a‐adrenoceptors (ADRA2A), but the underlying mechanisms and physiological relevance of this pathway were not assessed. We therefore investigated how ADRA2 activation regulates POMC neuron activity and whether Adra2a expressed in POMC neurons contributes to energy and glucose homeostasis in vivo. We used whole‐cell patch clamp electrophysiology in male and female mice to evaluate the impact of norepinephrine and the ADRA2 agonist UK 14,304 on definitive POMC neurons in the arcuate nucleus. We also generated and validated a novel Adra2a‐flox mouse line, which was crossed with Pomc‐CreERT2 mice to produce inducible POMC‐specific Adra2a knockout mice (POMCKOA2A). These mice were…
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Taxonomy
TopicsRegulation of Appetite and Obesity · Neurotransmitter Receptor Influence on Behavior · Neuroendocrine regulation and behavior
