Control of feeding by a bottom-up midbrain-subthalamic pathway.
Fernando M C V ReisSandra Maesta-PereiraMatthias OllivierPeter J SchuetteEkayana SethiBlake A MirandaEmily IniguezMeghmik ChakerianEric VaughnMegha SehgalDarren C T NguyenFaith T H YuanAnita TorossianJuliane M IkebaraAlexandre Hiroaki KiharaAlcino J SilvaJonathan C KaoBaljit S KhakhAvishek AdhikariPublished in: Nature communications (2024)
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.
Keyphrases
- induced apoptosis
- cell cycle arrest
- signaling pathway
- endoplasmic reticulum stress
- type diabetes
- physical activity
- cell death
- mental health
- computed tomography
- machine learning
- climate change
- big data
- lymph node
- radiation therapy
- minimally invasive
- skeletal muscle
- deep learning
- obsessive compulsive disorder
- neoadjuvant chemotherapy