Inhibition of Protein kinase Mzeta (PKMζ) in the mesolimbic system alters cocaine sensitization in rats.

Q4 Psychology
María E Vélez-Hernández, Rafael Vázquez-Torres, Maria C Velasquez-Martinez, Lincoln Jiménez, Frankie Báez, Todd C Sacktor, Carlos A Jiménez-Rivera
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引用次数: 0

Abstract

Chronic cocaine use produces long-lasting changes in reward circuits that may underlie the transition from casual to compulsive patterns of drug use. Although strong neuroadaptations within the mesocorticolimbic system are known to occur, the specific role of these drug-induced plasticities on sensitization remains to be elucidated. Here we investigate whether PKMζ, a protein involved in maintaining long-term potentiation (LTP), plays a role in these cocaine-induced changes in synaptic strengthening. We performed whole-cell voltage clamp recordings of putative ventral tegmental area (VTA) dopamine (DA) cells 24 hours after five days of 15 mg/kg i.p. cocaine or isovolumetric saline injections. We observed that superfusion of 5µM ZIP (PKMζ inhibitory peptide) decreased AMPA currents and AMPA/NMDA ratios only in cocaine sensitized rats. In vivo ZIP microinfusions (10 nmol) into the VTA after cocaine sensitization decreased locomotor activity on a subsequent cocaine challenge only if given ZIP is given before the withdrawal period. On the other hand, ZIP microinfusions into the nucleus accumbens (NAc) core after a seven days withdrawal period disrupt the expression of locomotor sensitization. The present data provide a potentially relevant region, and time-specific PKMζ-dependent brain mechanism that enables sensitization. Our results support the vision that addiction involves a pathological learning process. They imply that if this synaptic strengthening is reversed, changes in the behavioral response may also be overturned.

抑制间叶系统中的蛋白激酶Mzeta(PKMζ)会改变大鼠对可卡因的敏感性。
长期吸食可卡因会使奖赏回路发生长期变化,这可能是吸毒模式从偶然性过渡到强迫性的基础。尽管已知皮质中层边缘系统会发生强烈的神经适应,但这些药物诱导的可塑性对敏感性的具体作用仍有待阐明。在这里,我们研究了参与维持长期电位(LTP)的蛋白质 PKMζ 是否在可卡因诱导的突触强化变化中发挥作用。我们在腹侧被盖区(VTA)多巴胺(DA)细胞注射 15 毫克/千克可卡因或等体积生理盐水五天后 24 小时对其进行了全细胞电压钳记录。我们观察到,5µM ZIP(PKMζ抑制肽)只会降低可卡因致敏大鼠的AMPA电流和AMPA/NMDA比率。在可卡因致敏后,将 ZIP 微量注射(10 nmol)到 VTA,只有在戒断期之前注射 ZIP,才能在随后的可卡因挑战中降低运动活动。另一方面,在戒断期结束七天后,将 ZIP 微量注射到伏隔核(NAc)核心会破坏运动敏感性的表达。本研究的数据提供了一种潜在的相关区域和特定时间的 PKMζ 依赖性大脑机制,该机制可使致敏作用得以实现。我们的研究结果支持成瘾涉及病态学习过程的观点。它们意味着,如果这种突触强化被逆转,行为反应的变化也可能被推翻。
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来源期刊
Journal of Drug and Alcohol Research
Journal of Drug and Alcohol Research Psychology-Clinical Psychology
CiteScore
0.50
自引率
0.00%
发文量
0
期刊介绍: The Journal of Drug and Alcohol Research (JDAR) is a scholarly open access, peer-reviewed, and fully refereed journal dedicated to publishing sound papers on advances in the field of drug, opiate, nicotine and alcohol abuse, both basic and clinical. The journal will consider papers from all sub-disciplines and aspects of drug abuse, dependence and addiction research. Manuscripts will be published online as soon as they are accepted, which will reduce the time of publication. Because there are no space limitations or favored topics, all papers, within the scope of the journal, judged to be sound by the reviewers, will be published.
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