Abstract

In animals, the brain regulates feeding behavior in response to local energy demands of peripheral tissues, which secrete orexigenic and anorexigenic hormones. Although skeletal muscle is a key peripheral tissue, it remains unknown whether muscle-secreted hormones regulate feeding. In <i>Drosophila</i>, we found that <i>decapentaplegic</i> (<i>dpp</i>), the homolog of human bone morphogenetic proteins BMP2 and BMP4, is a muscle-secreted factor (a myokine) that is induced by nutrient sensing and that circulates and signals to the brain. Muscle-restricted dpp RNAi promotes foraging and feeding initiation, whereas <i>dpp</i> overexpression reduces it. This regulation of feeding by muscle-derived Dpp stems from modulation of brain <i>tyrosine hydroxylase</i> (<i>TH</i>) expression and dopamine biosynthesis. Consistently, Dpp receptor signaling in dopaminergic neurons regulates <i>TH</i> expression and feeding initiation via the downstream transcriptional repressor Schnurri. Moreover, pharmacologic modulation of TH activity rescues the changes in feeding initiation due to modulation of <i>dpp</i> expression in muscle. These findings indicate that muscle-to-brain endocrine signaling mediated by the myokine Dpp regulates feeding behavior.