Gowda Swetha B M, Banu Ayesha, Salim Safa, Peker Kadir A, Mohammad Farhan
Division of Biological and Biomedical Sciences (BBS), College of Health & Life Sciences (CHLS), Hamad Bin Khalifa University (HBKU), Doha 34110, Qatar.
Pegasystems Inc., Istanbul, Turkey.
iScience. 2022 Dec 28;26(1):105886. doi: 10.1016/j.isci.2022.105886. eCollection 2023 Jan 20.
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.
当被困在物理约束装置中时,动物必须选择一种逃脱策略以增加生存几率。落入无法逃脱的陷阱后,它们会表现出与可逃脱情况下不同的刻板行为。此类行为包括扭动身体以解开陷阱或装死以抵御捕食者的攻击。调节动物行为的神经机制在可逃脱情况下已得到充分表征,但在无法逃脱的陷阱情况下却并非如此。我们报告称,受约束的果蝇会交替挥舞和静止不动以挣脱陷阱。我们使用光遗传学和交叉遗传方法表明,虽然更广泛的血清素激活会促进静止不动,但腹侧神经索(VNC)中的血清素能细胞主要通过5-HT7受体调节静止不动状态。受约束和自由移动的运动状态由不同机制控制。综上所述,我们的研究确定了VNC中的血清素能开关,其促进特定环境下的适应性行为。
