- Massa, Megan G;
- Scott, Rachel L;
- Cara, Alexandra L;
- Cortes, Laura R;
- Vander, Paul B;
- Sandoval, Norma P;
- Park, Jae W;
- Ali, Sahara L;
- Velez, Leandro M;
- Wang, Huei-Bin;
- Ati, Shomik S;
- Tesfaye, Bethlehem;
- Reue, Karen;
- van Veen, J Edward;
- Seldin, Marcus M;
- Correa, Stephanie M
Balance between metabolic and reproductive processes is important for survival, particularly in mammals that gestate their young. How the nervous system coordinates this balance is an active area of study. Herein, we demonstrate that somatostatin (SST) neurons of the tuberal hypothalamus alter feeding in a manner sensitive to metabolic and reproductive states in mice. Whereas chemogenetic activation of SST neurons increased food intake across sexes, ablation decreased food intake only in female mice during proestrus. This ablation effect was only apparent in animals with low body mass. Fat transplantation and bioinformatics analysis of SST neuronal transcriptomes revealed white adipose as a key modulator of these effects. These studies indicate that SST hypothalamic neurons integrate metabolic and reproductive cues by responding to varying levels of circulating estrogens to modulate feeding differentially based on energy stores. Thus, gonadal steroid modulation of neuronal circuits can be context dependent and gated by metabolic status.