Mechanism underlying starvation-dependent modulation of olfactory behavior in Drosophila larva

Abstract

ABSTRACTStarvation enhances olfactory sensitivity that encourage animals to search for food. The molecular mechanisms that enable sensory neurons to remain flexible and adapt to a particular internal state remain poorly understood. Here, we study the roles of GABA and insulin signaling in starvation-dependent modulation of olfactory sensory neuron (OSN) function in the Drosophila larva. We show that GABAB-receptor and insulin-receptor are necessary for OSN modulation. Using a novel OSN-specific gene expression analysis, we explore downstream targets of insulin signaling in OSNs. Our results strongly suggest that insulin and GABA signaling pathways interact within OSNs and modulate OSN function by impacting olfactory information processing and neurotransmission. We further show that manipulating these signaling pathways specifically in the OSNs impact larval feeding behavior and its body weight. These results challenge the prevailing model of OSN modulation and highlight opportunities to better understand OSN modulation mechanisms and their relationship to animal physiology.