TrkB-expressing paraventricular hypothalamic neurons suppress appetite through multiple neurocircuits

The TrkB receptor is critical for the control of energy balance, as mutations in its gene ( NTRK2 ) lead to hyperphagia and severe obesity. The main neural substrate mediating the appetite-suppressing activity of TrkB, however, remains unknown. Here, we demonstrate that selective Ntrk2 deletion with...

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Bibliographic Details
Published in:Nature communications 2020-04, Vol.11 (1), p.1729-1729, Article 1729
Main Authors: An, Juan Ji, Kinney, Clint E., Tan, Ji-Wei, Liao, Guey-Ying, Kremer, Eric J., Xu, Baoji
Format: Article
Language:English
Subjects:
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Activation
Animals
Appetite
Appetite - genetics
Brain-derived neurotrophic factor
Circuits
Deletion
Energy balance
Feeding Behavior - physiology
Female
Food intake
Humanities and Social Sciences
Hyperphagia
Hyperphagia - genetics
Hyperphagia - metabolism
Hypothalamus
Hypothalamus (lateral)
Hypothalamus (ventromedial)
Membrane Glycoproteins - genetics
Membrane Glycoproteins - metabolism
Mice
Mice, Inbred C57BL
Mice, Transgenic
multidisciplinary
Mutation
Neural networks
Neuromodulation
Neurons
Neurons - metabolism
Obesity
Obesity - genetics
Obesity - metabolism
Parabrachial nucleus
Parabrachial Nucleus - cytology
Parabrachial Nucleus - metabolism
Parabrachial Nucleus - physiopathology
Paraventricular Hypothalamic Nucleus - cytology
Paraventricular Hypothalamic Nucleus - metabolism
Protein-Tyrosine Kinases - genetics
Protein-Tyrosine Kinases - metabolism
Receptors
Science
Science (multidisciplinary)
Substrates
TrkB receptors
Ventromedial Hypothalamic Nucleus - cytology
Ventromedial Hypothalamic Nucleus - metabolism
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Summary:The TrkB receptor is critical for the control of energy balance, as mutations in its gene ( NTRK2 ) lead to hyperphagia and severe obesity. The main neural substrate mediating the appetite-suppressing activity of TrkB, however, remains unknown. Here, we demonstrate that selective Ntrk2 deletion within paraventricular hypothalamus (PVH) leads to severe hyperphagic obesity. Furthermore, chemogenetic activation or inhibition of TrkB-expressing PVH (PVH TrkB ) neurons suppresses or increases food intake, respectively. PVH TrkB neurons project to multiple brain regions, including ventromedial hypothalamus (VMH) and lateral parabrachial nucleus (LPBN). We find that PVH TrkB neurons projecting to LPBN are distinct from those to VMH, yet Ntrk2 deletion in PVH neurons projecting to either VMH or LPBN results in hyperphagia and obesity. Additionally, TrkB activation with BDNF increases firing of these PVH neurons. Therefore, TrkB signaling is a key regulator of a previously uncharacterized neuronal population within the PVH that impinges upon multiple circuits to govern appetite. The TrkB receptor is known to regulate obesity via appetite control, but the underlying neural circuits are not known. Here, the authors show that selective modulation of TrkB+ neurons in the paraventricular hypothalamus regulates food intake via circuits to ventromedial hypothalamus and lateral parabrachial nucleus.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-020-15537-w