Enteric neurons increase maternal food intake during reproduction

Reproduction induces increased food intake across females of many animal species(1–4), providing a physiologically relevant paradigm for exploration of appetite regulation. Parsing enteric neuronal diversity in Drosophila, we identify a key role for gut-innervating neurons with sex- and reproductive state-specific activity in sustaining the increased food intake of mothers during reproduction. Steroid and enteroendocrine hormones functionally remodel these neurons, leading to post-mating release of their neuropeptide onto the muscles of the crop: a stomach-like organ. Post-mating neuropeptide release changes the dynamics of crop enlargement, resulting in increased food intake. Preventing enteric neuron remodelling blunts reproductive hyperphagia and reduces reproductive fitness. Thus, plasticity of enteric neurons is key to reproductive success. Our findings provide a new mechanism to attain the positive energy balance that sustains gestation which, if dysregulated, could contribute to infertility or weight gain.