Inter-organ Wingless/Ror/Akt signaling regulates nutrient-dependent hyperarborization of somatosensory neurons

Abstract

ABSTRACTNutrition in early life has profound effects on an organism, altering processes such as organogenesis. However, little is known about how specific nutrients affect neuronal development. Dendrites of class IV neurons in Drosophila larvae become more complex when the larvae are reared on a low-yeast diet compared to a high-yeast diet. Our systematic search for key nutrients revealed that the neurons increase their dendrite densities in response to a combined deficiency in vitamins, metal ions, and cholesterol. These nutrients affect dendrite branching through the Wingless/Ror/Akt pathway between the neuron and closely located muscles, and this short range-pathway is regulated by a systemic Upd2-Stat92E pathway between the fat body and muscles. Additionally, the low-yeast diet blunts neuronal light responsiveness and light avoidance behavior, which may help larvae optimize their survival strategies under low-nutritional conditions. Together, our studies illustrate how the availability of specific nutrients affects neuronal development through inter-organ signaling.