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Metabolic control of daily locomotor activity mediated by tachykinin in Drosophila

Sang Hyuk Lee, Eunjoo Cho, Sung‐Eun Yoon, Young‐Joon Kim, Eun Young Kim

2021Communications Biology33 citationsDOIOpen Access PDF

Abstract

Abstract Metabolism influences locomotor behaviors, but the understanding of neural curcuit control for that is limited. Under standard light-dark cycles, Drosophila exhibits bimodal morning (M) and evening (E) locomotor activities that are controlled by clock neurons. Here, we showed that a high-nutrient diet progressively extended M activity but not E activity. Drosophila tachykinin (DTk) and Tachykinin-like receptor at 86 C (TkR86C) -mediated signaling was required for the extension of M activity. DTk neurons were anatomically and functionally connected to the posterior dorsal neuron 1s (DN1 p s) in the clock neuronal network. The activation of DTk neurons reduced intracellular Ca 2+ levels in DN1 p s suggesting an inhibitory connection. The contacts between DN1 p s and DTk neurons increased gradually over time in flies fed a high-sucrose diet, consistent with the locomotor behavior. DN1 p s have been implicated in integrating environmental sensory inputs (e.g., light and temperature) to control daily locomotor behavior. This study revealed that DN1 p s also coordinated nutrient information through DTk signaling to shape daily locomotor behavior.

Topics & Concepts

Locomotor activityControl (management)Drosophila (subgenus)Metabolic activityBiologyInternal medicineEndocrinologyPhysiologyMedicineGeneticsGeneComputer scienceArtificial intelligenceNeurobiology and Insect Physiology ResearchCircadian rhythm and melatoninPhysiological and biochemical adaptations
Metabolic control of daily locomotor activity mediated by tachykinin in Drosophila | Litcius