Integration of hunger and hormonal state gates infant-directed aggression

Social behaviour is profoundly shaped by internal physiological states. While significant progress has been made in understanding how individual states such as hunger, stress, or arousal modulate behaviour, animals experience multiple states at any given time. The neural mechanisms that integrate such orthogonal states - and how this integration affects behaviour - remain poorly understood. Here we report how hunger and estrous state converge on neurons in the medial preoptic area (MPOA) to shape infant-directed behaviour. We find that hunger promotes pup-directed aggression in normally non aggressive virgin female mice. This behavioural switch occurs through inhibition of MPOA neurons, driven by the release of neuropeptide Y (NPY) from Agouti-related peptide-expressing neurons in the arcuate nucleus (Arc ^AgRP neurons). The propensity for hunger induced aggression is set by reproductive state, with MPOA neurons detecting changes in progesterone (P4) to estradiol (E2) ratio across the estrous cycle. Hunger and estrous state converge on HCN (hyperpolarization-activated cyclic nucleotide-gated) channels, which sets the baseline activity and excitability of MPOA neurons. Using micro endoscopic imaging, we confirm these findings in vivo , revealing that MPOA neurons encode a state for pup-directed aggression. This work thus provides a mechanistic understanding of how multiple physiological states are integrated to flexibly control social behaviour.