Sex-dependent modulation of behavioral allocation via ventral tegmental area-nucleus accumbens shell circuitry.

NeuroImmune pharmacology and therapeutics Pub Date : 2025-06-30 eCollection Date: 2025-06-01 DOI:10.1515/nipt-2025-0002
Kristen A McLaurin, Jessica M Illenberger, Hailong Li, Rosemarie M Booze, Charles F Mactutus
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Abstract

Diagnostic criteria for substance use disorder, cocaine type (i.e., cocaine use disorder), outlined in the 5th edition of the Diagnostic and Statistical Manual of Mental Disorders, imply that the disorder arises, at least in part, from the maladaptive allocation of behavior to drug use. To date, however, the neural circuits involved in the allocation of behavior have not been systematically evaluated. Herein, a chemogenetics approach (i.e., designer receptors exclusively activated by designer drugs (DREADDs)) was utilized in combination with a concurrent choice self-administration experimental paradigm to evaluate the role of the mesolimbic neurocircuit in the allocation of behavior. Pharmacological activation of hM3D(Gq) DREADDs in neurons projecting from the ventral tegmental area (VTA) to the nucleus accumbens (AcbSh) induced a sex-dependent shift in the allocation of behavior in rodents transduced with DREADDs. Specifically, male DREADDs animals exhibited a robust increase in responding for a natural (i.e., sucrose) reward following pharmacological activation of the VTA-AcbSh circuit; female DREADDs rodents, in sharp contrast, displayed a prominent decrease in drug-reinforced (i.e., cocaine) responding. The sequential activation of hM3D(Gq) and KORD DREADDs within the same neuronal population validated the role of the VTA-AcbSh circuit in reinforced responding for concurrently available natural and drug rewards. Collectively, the VTA-AcbSh circuit is fundamentally involved in behavioral allocation affording a key target for the development of novel pharmacotherapies.

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腹侧被盖区-伏隔核壳回路对行为分配的性别依赖性调节。
《精神疾病诊断和统计手册》第5版概述了物质使用障碍、可卡因类型(即可卡因使用障碍)的诊断标准,这意味着,这种障碍至少部分源于对药物使用行为的不适应分配。然而,到目前为止,参与行为分配的神经回路还没有得到系统的评估。本研究采用化学遗传学方法(即设计药物特异性激活的设计受体(DREADDs))结合并发选择自我给药实验范式来评估中边缘神经回路在行为分配中的作用。从腹侧被覆区(VTA)到伏隔核(AcbSh)的神经元中hM3D(Gq) DREADDs的药理激活诱导了以DREADDs转导的啮齿动物行为分配的性别依赖转变。具体来说,雄性DREADDs动物在药理激活VTA-AcbSh回路后,对自然(即蔗糖)奖励的反应显著增加;与之形成鲜明对比的是,雌性DREADDs啮齿动物对药物强化(即可卡因)的反应明显减少。hM3D(Gq)和KORD DREADDs在同一神经元群中的顺序激活证实了VTA-AcbSh回路在同时可用的自然和药物奖励的强化反应中的作用。总的来说,VTA-AcbSh回路从根本上参与了行为分配,为新型药物治疗的发展提供了关键目标。
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