Addiction Biology Unit, Molecular Targets and Medications Discovery Branch, National Institute on Drug Abuse, Intramural Research Program, Baltimore, Maryland 21224.
Synaptic Plasticity Section, National Institute on Drug Abuse, Intramural Research Program, Baltimore, Maryland 21224.
J Neurosci. 2020 Nov 11;40(46):8853-8869. doi: 10.1523/JNEUROSCI.0988-20.2020. Epub 2020 Oct 12.
Opioid reward has traditionally been thought to be mediated by GABA-induced disinhibition of dopamine (DA) neurons in the VTA. However, direct behavioral evidence supporting this hypothesis is still lacking. In this study, we found that the μ opioid receptor (MOR) gene, , is highly expressed in GABA neurons, with ∼50% of GABA neurons in the substantia nigra pars reticulata (SNr), ∼30% in the VTA, and ∼70% in the tail of the VTA (also called the rostromedial tegmental nucleus) in male rats. No mRNA was detected in midbrain DA neurons. We then found that optogenetic inhibition of VTA DA neurons reduced intravenous heroin self-administration, whereas activation of these neurons produced robust optical intracranial self-stimulation in DAT-Cre mice, supporting an important role of DA neurons in opioid reward. Unexpectedly, pharmacological blockade of MORs in the SNr was more effective than in the VTA in reducing heroin reward. Optogenetic activation of VTA GABA neurons caused place aversion and inhibited cocaine, but not heroin, self-administration, whereas optogenetic activation of SNr GABA neurons caused a robust increase in heroin self-administration with an extinction pattern, suggesting a compensatory response in drug intake due to reduced heroin reward. In addition, activation of SNr GABA neurons attenuated heroin-primed, but not cue-induced, reinstatement of drug-seeking behavior, whereas inhibition of SNr GABA neurons produced optical intracranial self-stimulation and place preference. Together, these findings suggest that MORs on GABA neurons in the SNr play more important roles in opioid reward and relapse than MORs on VTA GABA neurons. Opioid reward has long been believed to be mediated by inhibition of GABA interneurons in the VTA that subsequently leads to disinhibition of DA neurons. In this study, we found that more μ opioid receptors (MORs) are expressed in GABA neurons in the neighboring SNr than in the VTA, and that pharmacological blockade of MORs in the SNr is more effective in reducing heroin reward than blockade of MORs in the VTA. Furthermore, optogenetic activation of VTA GABA neurons inhibited cocaine, but not heroin, self-administration, whereas activation of SNr GABA neurons inhibited heroin reward and relapse. These findings suggest that opioid reward is more likely mediated by stimulation of MORs in GABA afferents from other brain regions than in VTA GABA neurons.
阿片类药物奖赏长期以来被认为是由 VTA 中的 GABA 诱导的多巴胺 (DA) 神经元抑制介导的。然而,支持这一假设的直接行为证据仍然缺乏。在这项研究中,我们发现 μ 阿片受体 (MOR) 基因,在 GABA 神经元中高度表达,在雄性大鼠的黑质网状部 (SNr) 中约有 50%的 GABA 神经元,在 VTA 中约有 30%,在 VTA 的尾部(也称为中脑腹侧被盖区)中约有 70%。中脑 DA 神经元中未检测到 mRNA。然后,我们发现 VTA DA 神经元的光遗传抑制减少了静脉内海洛因自我给药,而这些神经元的激活在 DAT-Cre 小鼠中产生了强大的光学颅内自我刺激,支持 DA 神经元在阿片类药物奖赏中的重要作用。出乎意料的是,在 SNr 中阻断 MOR 比在 VTA 中更有效地减少海洛因奖赏。VTA GABA 神经元的光遗传激活引起回避,抑制可卡因,但不抑制海洛因自我给药,而 SNr GABA 神经元的光遗传激活导致海洛因自我给药的显著增加,并呈现出消退模式,表明由于海洛因奖赏减少而导致药物摄入的代偿反应。此外,SNr GABA 神经元的激活减弱了海洛因启动的,但不是线索诱导的,觅药行为的复燃,而 SNr GABA 神经元的抑制产生了光学颅内自我刺激和位置偏好。总之,这些发现表明,SNr 中的 GABA 神经元上的 MOR 在阿片类药物奖赏和复发中比 VTA GABA 神经元上的 MOR 发挥更重要的作用。阿片类药物奖赏长期以来被认为是由 VTA 中的 GABA 中间神经元抑制介导的,随后导致 DA 神经元的去抑制。在这项研究中,我们发现,SNr 中的 GABA 神经元表达的 μ 阿片受体 (MOR) 比 VTA 中的 GABA 神经元多,而在 SNr 中阻断 MOR 比在 VTA 中更有效地减少海洛因奖赏。此外,VTA GABA 神经元的光遗传激活抑制可卡因,但不抑制海洛因自我给药,而 SNr GABA 神经元的激活抑制海洛因奖赏和复发。这些发现表明,阿片类药物奖赏更可能是由来自其他脑区的 GABA 传入纤维上的 MOR 刺激介导的,而不是 VTA GABA 神经元上的 MOR 刺激介导的。