背侧纹状体中的星形胶质细胞 Ca2+ 可抑制神经元活动,从而抑制诱因诱发的可卡因寻求行为的恢复

IF 4.2 3区 医学 Q2 NEUROSCIENCES Frontiers in Cellular Neuroscience Pub Date : 2024-08-29 DOI:10.3389/fncel.2024.1347491
Navid S. Tavakoli, Samantha G. Malone, Tanner L. Anderson, Ryson E. Neeley, Artin Asadipooya, Michael T. Bardo, Pavel I. Ortinski
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引用次数: 0

摘要

最近的文献证实,星形胶质细胞在调节觅药行为方面发挥着重要作用。众所周知,背侧纹状体在奖赏处理过程中的神经元活动会受到星形胶质细胞 Ca2+ 的影响。然而,背侧纹状体星形胶质细胞中的 Ca2+ 如何在暴露于自给可卡因后影响神经元信号传导仍不清楚。我们在训练大鼠自我摄取可卡因后,在其背纹状体星形胶质细胞中过度表达 Ca2+ 挤出泵 hPMCA2w/b 和在背纹状体神经元中过度表达 Ca2+ 指示剂 GCaMP6f,从而解决了这一问题。过度表达 hMPCA2w/b 的大鼠在可卡因寻求行为消退后,线索诱导的可卡因寻求行为恢复显著增加。抑制星形胶质细胞Ca2+会增加脑片中神经元Ca2+瞬时的幅度,但只有在可卡因自我给药后才会出现这种情况。与此同时,可卡因组神经元Ca2+事件的持续时间缩短,而Ca2+事件频率没有变化。无论 hPMCA2w/b 的表达情况如何,给脑片急性注射可卡因都会降低对照组和自行服用可卡因组神经元 Ca2+ 的振幅。这些结果表明,星形胶质细胞对神经元 Ca2+ 瞬时的控制因可卡因自我给药经验而增强,尽管所有组别对急性应用可卡因的敏感性仍然相当。为了进一步探讨这个问题,我们发现 hMPMCA2w/b 的表达和可卡因自我给药经历都不会改变 Ca2+ 感受受体(CaSR)拮抗剂 NPS-2143 对神经元 Ca2+ 事件的调节,这表明 hPMCA2w/b 过度表达后神经元信号的可塑性不太可能来自细胞外 Ca2+ 的升高。我们的结论是,背侧纹状体中的星形胶质细胞 Ca2+ 通过细胞内在机制(如神经胶质传导、代谢耦合等)对神经元产生影响,并且在可卡因自我给药后对神经元长期可塑性的影响不同于神经元对急性可卡因的反应。总之,星形胶质细胞Ca2+影响背侧纹状体的神经元输出,以促进对线索诱导的可卡因寻求恢复的抵抗。
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Astrocyte Ca2+ in the dorsal striatum suppresses neuronal activity to oppose cue-induced reinstatement of cocaine seeking
Recent literature supports a prominent role for astrocytes in regulation of drug-seeking behaviors. The dorsal striatum, specifically, is known to play a role in reward processing with neuronal activity that can be influenced by astrocyte Ca2+. However, the manner in which Ca2+ in dorsal striatum astrocytes impacts neuronal signaling after exposure to self-administered cocaine remains unclear. We addressed this question following over-expression of the Ca2+ extrusion pump, hPMCA2w/b, in dorsal striatum astrocytes and the Ca2+ indicator, GCaMP6f, in dorsal striatum neurons of rats that were trained to self-administer cocaine. Following extinction of cocaine-seeking behavior, the rats over-expressing hMPCA2w/b showed a significant increase in cue-induced reinstatement of cocaine seeking. Suppression of astrocyte Ca2+ increased the amplitude of neuronal Ca2+ transients in brain slices, but only after cocaine self-administration. This was accompanied by decreased duration of neuronal Ca2+ events in the cocaine group and no changes in Ca2+ event frequency. Acute administration of cocaine to brain slices decreased amplitude of neuronal Ca2+ in both the control and cocaine self-administration groups regardless of hPMCA2w/b expression. These results indicated that astrocyte Ca2+ control over neuronal Ca2+ transients was enhanced by cocaine self-administration experience, although sensitivity to acutely applied cocaine remained comparable across all groups. To explore this further, we found that neither the hMPCA2w/b expression nor the cocaine self-administration experience altered regulation of neuronal Ca2+ events by NPS-2143, a Ca2+ sensing receptor (CaSR) antagonist, suggesting that plasticity of neuronal signaling after hPMCA2w/b over-expression was unlikely to result from elevated extracellular Ca2+. We conclude that astrocyte Ca2+ in the dorsal striatum impacts neurons via cell-intrinsic mechanisms (e.g., gliotransmission, metabolic coupling, etc.) and impacts long-term neuronal plasticity after cocaine self-administration differently from neuronal response to acute cocaine. Overall, astrocyte Ca2+ influences neuronal output in the dorsal striatum to promote resistance to cue-induced reinstatement of cocaine seeking.
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来源期刊
CiteScore
7.90
自引率
3.80%
发文量
627
审稿时长
6-12 weeks
期刊介绍: Frontiers in Cellular Neuroscience is a leading journal in its field, publishing rigorously peer-reviewed research that advances our understanding of the cellular mechanisms underlying cell function in the nervous system across all species. Specialty Chief Editors Egidio D‘Angelo at the University of Pavia and Christian Hansel at the University of Chicago are supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide.
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