Serotonin Distinctly Controls Behavioral States in Restrained and Freely Moving

Overview

Journal iScience

Publisher Cell Press

Date 2023 Jan 19

PMID 36654863

Authors

Swetha B M Gowda

Ayesha Banu

Safa Salim

Kadir A Peker

Farhan Mohammad

Affiliations

Soon will be listed here.

Abstract

When trapped in a physical restraint, animals must select an escape strategy to increase their chances of survival. After falling into an inescapable trap, they react with stereotypical behaviors that differ from those displayed in escapable situations. Such behaviors involve either a wriggling response to unlock the trap or feigning death to fend off a predator attack. The neural mechanisms that regulate animal behaviors have been well characterized for escapable situations but not for inescapable traps. We report that restrained vinegar flies exhibit alternating flailing and immobility to free themselves from the trap. We used optogenetics and intersectional genetic approaches to show that, while broader serotonin activation promotes immobility, serotonergic cells in the ventral nerve cord (VNC) regulate immobility states majorly via 5-HT7 receptors. Restrained and freely moving locomotor states are controlled by distinct mechanisms. Taken together, our study has identified serotonergic switches of the VNC that promote environment-specific adaptive behaviors.

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