Animal models that examine neural circuits controlling food intake often lack translational relevance. To address this limitation, we identified neural network dynamics related to homeostatic state and BMI in humans. This approach predicted a novel pathway projecting from the medial prefrontal cortex (mPFC) to the lateral hypothalamus (LH) in humans. We then dissected the mechanistic underpinnings of this human-relevant mPFC-LH circuit in mice. Chemogenetic or optogenetic activation of the mPFC-LH pathway in mice suppressed food intake and motivated sucrose-seeking. Fibre photometry demonstrated this pathway was active in response to acute stress or prior to novel environment or object exposure, suggesting a role in the predictive assessment of potential threat. Food consumption suppressed mPFC-LH neuronal activity, independent of metabolic state or palatability. Finally, inhibition of this circuit increased feeding and motivated behaviour under mild stress and chronic ablation caused weight gain. These studies identify the mPFC-LH as a novel stress-sensitive anorexigenic neural pathway involved in the cortical control of food intake and motivated reward-seeking.

Competing Interest Statement

The authors have declared no competing interest.

Footnotes

* https://osf.io/cfrsh/

* https://github.com/Andrews-Lab/Clarke-et-al-mPFC-LH-manuscript