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Circadian Structural Plasticity Drives a Timed Switch in the Hierarchy Among Key Pacemaker Neurons

31 Pages Posted: 13 Apr 2020 Publication Status: Review Complete

See all articles by José M. Duhart

José M. Duhart

CONICET - Laboratorio de Genética del Comportamiento

Anastasia Herrero

CONICET - Laboratorio de Genética del Comportamiento

Gabriel de la Cruz

CONICET - Laboratorio de Genética del Comportamiento

Nicolás Pírez

CONICET - Laboratorio de Genética del Comportamiento

Maria Fernanda Ceriani

CONICET - Laboratorio de Genética del Comportamiento

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Abstract

Behavioral outputs arise as a result of highly regulated, yet flexible, communication among neurons. In Drosophila, two neuronal clusters, the morning (M) and evening (E) cells, are essential for the characteristic bimodal pattern of daily locomotor activity. However, the precise interaction between these two clusters has not been fully described. Here we show the existence of synaptic input provided by the evening oscillator onto the M-cells. In addition, both structural and functional approaches revealed that E- to M-cell connectivity changes across the day, with higher excitatory input taking place before the day to night transition. We identified two different neurotransmitters, acetylcholine and glutamate, released by E-cells that are relevant for robust circadian output. Indeed, we show that acetylcholine is responsible for the excitatory input from E-cells to M-cells, which show preferential responsiveness to acetylcholine during the evening. Our findings provide evidence of an excitatory feedback between circadian clusters and unveil an important plastic remodeling of the E-cells synaptic connections.

Keywords: circadian network, fast neurotransmission, M oscillator, E oscillator, Acetylcholine, glutamate

Suggested Citation

Duhart, José M. and Herrero, Anastasia and de la Cruz, Gabriel and Pírez, Nicolás and Ceriani, Maria Fernanda, Circadian Structural Plasticity Drives a Timed Switch in the Hierarchy Among Key Pacemaker Neurons. Available at SSRN: https://ssrn.com/abstract=3573220 or http://dx.doi.org/10.2139/ssrn.3573220
This version of the paper has not been formally peer reviewed.

José M. Duhart

CONICET - Laboratorio de Genética del Comportamiento

Argentina

Anastasia Herrero

CONICET - Laboratorio de Genética del Comportamiento ( email )

Argentina

Gabriel De La Cruz

CONICET - Laboratorio de Genética del Comportamiento ( email )

Argentina

Nicolás Pírez

CONICET - Laboratorio de Genética del Comportamiento ( email )

Argentina

Maria Fernanda Ceriani (Contact Author)

CONICET - Laboratorio de Genética del Comportamiento ( email )

Argentina

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