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Control of feeding by a bottom-up midbrain-subthalamic pathway

by Yuan, Faith T. H. , Kao, Jonathan C. , Sethi, Ekayana , Reis, Fernando M. C. V. , Miranda, Blake A. , Iniguez, Emily , Vaughn, Eric , Ikebara, Juliane M. , Ollivier, Matthias , Adhikari, Avishek , Khakh, Baljit S. , Sehgal, Megha , Kihara, Alexandre H. , Torossian, Anita , Maesta-Pereira, Sandra , Chakerian, Meghmik , Schuette, Peter J. , Nguyen, Darren C. T. , Silva, Alcino J.

in 14/19 / 631/378/1488 / 631/378/1662 / 64/60 / 9/74 / 96/1 / 96/63 / Animals / Defensive behavior / Exploration / Feeding behavior / Food / Food consumption / Foraging behavior / Humanities and Social Sciences / Hunting / Mesencephalon / Mice / multidisciplinary / Periaqueductal Gray - physiology / Periaqueductal gray area / Prey / Science / Science (multidisciplinary) / Zona incerta / γ-Aminobutyric acid

2024

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2024

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2024

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Journal Article

Control of feeding by a bottom-up midbrain-subthalamic pathway

Yuan, Faith T. H.,

Kao, Jonathan C.,

Sethi, Ekayana,

Reis, Fernando M. C. V.,

Miranda, Blake A.,

Iniguez, Emily,

Vaughn, Eric,

Ikebara, Juliane M.,

Ollivier, Matthias,

Adhikari, Avishek,

Khakh, Baljit S.,

Sehgal, Megha,

Kihara, Alexandre H.,

Torossian, Anita,

Maesta-Pereira, Sandra,

Chakerian, Meghmik,

Schuette, Peter J.,

Nguyen, Darren C. T.,

Silva, Alcino J.

2024

Overview

Investigative exploration and foraging leading to food consumption have vital importance, but are not well-understood. Since GABAergic inputs to the lateral and ventrolateral periaqueductal gray (l/vlPAG) control such behaviors, we dissected the role of vgat-expressing GABAergic l/vlPAG cells in exploration, foraging and hunting. Here, we show that in mice vgat l/vlPAG cells encode approach to food and consumption of both live prey and non-prey foods. The activity of these cells is necessary and sufficient for inducing food-seeking leading to subsequent consumption. Activation of vgat l/vlPAG cells produces exploratory foraging and compulsive eating without altering defensive behaviors. Moreover, l/vlPAG vgat cells are bidirectionally interconnected to several feeding, exploration and investigation nodes, including the zona incerta. Remarkably, the vgat l/vlPAG projection to the zona incerta bidirectionally controls approach towards food leading to consumption. These data indicate the PAG is not only a final downstream target of top-down exploration and foraging-related inputs, but that it also influences these behaviors through a bottom-up pathway. Periaqueductal gray (PAG) inputs control hunting, but foraging-inducing PAG cells were unidentified. Here, authors show that in mice activity in the projection of vgat PAG cells to the zona incerta is sufficient and necessary for food-seeking.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

14/19

/ 631/378/1488

/ 631/378/1662

/ 64/60

/ 9/74

/ 96/1

/ 96/63