Optogenetic inhibition of light-captured alcohol-taking striatal engrams facilitates extinction and suppresses reinstatement

IF 3 Q2 SUBSTANCE ABUSE
Valerie Vierkant, Xueyi Xie, Zhenbo Huang, Lian He, Eric Bancroft, Xuehua Wang, Tran Nguyen, Rahul Srinivasan, Yubin Zhou, Jun Wang
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Abstract

Background

Alcohol use disorder (AUD) is a complex condition, and it remains unclear which specific neuronal substrates mediate alcohol-seeking and -taking behaviors. Engram cells and their related ensembles, which encode learning and memory, may play a role in this process. We aimed to assess the precise neural substrates underlying alcohol-seeking and -taking behaviors and determine how they may affect one another.

Methods

Using FLiCRE (Fast Light and Calcium-Regulated Expression; a newly developed technique which permits the trapping of acutely activated neuronal ensembles) and operant self-administration (OSA), we tagged striatal neurons activated during alcohol-taking behaviors. We used FLiCRE to express an inhibitory halorhodopsin in alcohol-taking neurons, permitting loss-of-function manipulations.

Results

We found that the inhibition of OSA-tagged alcohol-taking neurons decreased both alcohol-seeking and -taking behaviors in future OSA trials. In addition, optogenetic inhibition of these OSA-tagged alcohol-taking neurons during extinction training facilitated the extinction of alcohol-seeking behaviors. Furthermore, inhibition of these OSA-tagged alcohol-taking neurons suppressed the reinstatement of alcohol-seeking behaviors, but, interestingly, it did not significantly suppress alcohol-taking behaviors during reinstatement.

Conclusions

Our findings suggest that alcohol-taking neurons are crucial for future alcohol-seeking behaviors during extinction and reinstatement. These results may help in the development of new therapeutic approaches to enhance extinction and suppress relapse in individuals with AUD.

Abstract Image

Abstract Image

对光捕获的酒精摄取纹状体刻痕进行光遗传学抑制可促进消退并抑制恢复。
背景:酒精使用障碍(AUD)是一种复杂的疾病,目前仍不清楚是哪些特定的神经元基质介导了酒精寻求和摄取行为。编码学习和记忆的恩格拉姆细胞及其相关组合可能在这一过程中发挥作用。我们的目的是评估酒精寻求和摄取行为的精确神经基质,并确定它们可能如何相互影响:我们使用 FLiCRE(快速光和钙调控表达;一种新开发的技术,允许捕获急性激活的神经元组合)和操作性自我管理(OSA),标记了酒精摄取行为中激活的纹状体神经元。我们利用 FLiCRE 在摄酒神经元中表达抑制性卤化神经元,从而实现了功能缺失操作:结果:我们发现,在未来的OSA试验中,抑制OSA标记的摄酒神经元可减少觅酒和摄酒行为。此外,在熄灭训练中对这些OSA标记的摄酒神经元进行光遗传学抑制可促进觅酒行为的熄灭。此外,抑制这些OSA标记的摄酒神经元还能抑制觅酒行为的恢复,但有趣的是,抑制这些OSA标记的摄酒神经元并不能显著抑制恢复过程中的摄酒行为:我们的研究结果表明,在消退和恢复过程中,嗜酒神经元对未来的嗜酒行为至关重要。这些结果可能有助于开发新的治疗方法,以加强消退和抑制 AUD 患者的复发。
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CiteScore
5.40
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