胆碱能回路的跨突触调节可调节阿片类药物强化作用。

Trans-synaptic modulation of cholinergic circuits tunes opioid reinforcement.

作者信息

Zucca Stefano, Brunori Gloria, Dunn Henry A, Lankford Colten K, Sutton Laurie P, Algibez Flores Beatriz, Maza Nycole A, Sial Omar, Crynen Gogce, Luján Rafael, Martemyanov Kirill A

机构信息

Department of Neuroscience, The Herbert Wertheim UF Scripps Institute for Biomedical Innovation & Technology, University of Florida, Jupiter, FL 33458.

Bioinformatics and Statistics Core, The Herbert Wertheim UF Scripps Institute for Biomedical Innovation & Technology, University of Florida, Jupiter, FL 33458.

出版信息

Proc Natl Acad Sci U S A. 2025 Mar 25;122(12):e2409325122. doi: 10.1073/pnas.2409325122. Epub 2025 Mar 20.

DOI:10.1073/pnas.2409325122

PMID:40112116

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11962452/

Abstract

Opioids trigger structural and functional neural adaptations of the reward circuit that lead to dependence. Synaptic cell adhesion molecules (CAMs) play a pivotal role in circuit organization and present prime candidates for orchestrating remodeling of neural connections in response to drug exposure. However, the contribution of CAMs to opioid-induced rewiring of the reward circuit has not been explored. Here, we used unbiased molecular profiling to identify CAMs in the nucleus accumbens (NAc) modulated by morphine administration. We found that opioid exposure induces the expression of ELFN1, a CAM selectively expressed in cholinergic interneurons in the NAc. We determined that ELFN1 acts trans-synaptically to modulate the strength and plasticity of the glutamatergic inputs onto cholinergic neurons via the recruitment of presynaptic metabotropic glutamate receptor 4 (mGlu4). Disruption of diminished morphine reward and intake in self-administering mice. Together, our findings identify a key molecular factor responsible for adjusting the strength of opioid effects by modulating the configuration of striatal circuitry in an experience-dependent fashion and unveil potential therapeutic target for combating opioid abuse.

摘要

阿片类药物会引发奖赏回路的结构和功能神经适应性变化，进而导致成瘾。突触细胞黏附分子（CAMs）在回路组织中起关键作用，是应对药物暴露时协调神经连接重塑的主要候选分子。然而，CAMs对阿片类药物诱导的奖赏回路重新布线的作用尚未得到研究。在此，我们采用无偏差分子谱分析来鉴定经吗啡给药调节的伏隔核（NAc）中的CAMs。我们发现阿片类药物暴露会诱导ELFN1的表达，ELFN1是一种在NAc胆碱能中间神经元中选择性表达的CAM。我们确定ELFN1通过募集突触前代谢型谷氨酸受体4（mGlu4），以反式突触方式调节胆碱能神经元上谷氨酸能输入的强度和可塑性。破坏这种调节会减少自我给药小鼠的吗啡奖赏和摄入量。总之，我们的研究结果确定了一个关键分子因子，该因子通过以经验依赖的方式调节纹状体回路的结构来调整阿片类药物作用的强度，并揭示了对抗阿片类药物滥用的潜在治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ba95/11962452/593cb650dd4d/pnas.2409325122fig01.jpg

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胆碱能回路的跨突触调节可调节阿片类药物强化作用。

Trans-synaptic modulation of cholinergic circuits tunes opioid reinforcement.

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