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阿片类药物滥用与 HIV-1 Tat 之间的交互共病:慢性暴露加剧纹状体神经元的脊柱丢失和亚致死性树突病理。

Interactive comorbidity between opioid drug abuse and HIV-1 Tat: chronic exposure augments spine loss and sublethal dendritic pathology in striatal neurons.

机构信息

Department Pharmacology and Toxicology, Virginia Commonwealth University, Medical College of Virginia Campus, Richmond, VA 23298, USA.

出版信息

Am J Pathol. 2010 Sep;177(3):1397-410. doi: 10.2353/ajpath.2010.090945. Epub 2010 Jul 22.

DOI:10.2353/ajpath.2010.090945
PMID:20651230
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2928972/
Abstract

HIV-1 infection predisposes the central nervous system to damage by opportunistic infections and environmental insults. Such maladaptive plasticity may underlie the exaggerated comorbidity seen with HIV-1 infection and opioid abuse. Although morphine and HIV-1 Tat synergize at high concentrations to increase neuronal death in vitro, we questioned whether chronic low Tat exposure in vivo might contribute to the spectrum of neuropathology through sublethal neuronal injury. We used a doxycycline-driven, inducible, HIV-1 Tat transgenic mouse, in which striatal neuron death was previously shown to be absent, to examine effects of differential Tat expression, alone and combined with morphine. Low constitutive Tat expression caused neurodegeneration; higher levels induced by 7 days of doxycycline significantly reduced dendritic spine numbers. Moreover, Tat expression widely disrupted the endogenous opioid system, altering mu and kappa, but not delta, opioid receptor and proopiomelanocortin, proenkephalin, and prodynorphin transcript levels in cortex, hippocampus, and striatum. In addition to markedly reducing spine density by itself, morphine amplified the effect of higher levels of Tat on spines, and also potentiated Tat-mediated dendritic pathology, thus contributing to maladaptive neuroplasticity at multiple levels. The dendritic pathology and reductions in spine density suggest that sustained Tat +/- morphine exposure underlie key aspects of chronic neurodegenerative changes in neuroAIDS, which may contribute to the exacerbated neurological impairment in HIV patients who abuse opioids.

摘要

HIV-1 感染使中枢神经系统容易受到机会性感染和环境损伤的破坏。这种适应性不良的可塑性可能是 HIV-1 感染和阿片类药物滥用所导致的合并症加剧的基础。尽管吗啡和 HIV-1 Tat 在高浓度下协同作用会增加体外神经元死亡,但我们质疑体内慢性低 Tat 暴露是否会通过亚致死性神经元损伤导致神经病理学谱的改变。我们使用了一种由强力霉素驱动的、可诱导的 HIV-1 Tat 转基因小鼠,此前研究表明这种小鼠的纹状体神经元死亡不存在,以研究单独和与吗啡联合的 Tat 表达差异的影响。低组成型 Tat 表达导致神经退行性变;7 天强力霉素诱导的更高水平显著减少了树突棘数量。此外,Tat 表达广泛破坏了内源性阿片系统,改变了皮质、海马和纹状体中的 mu 和 kappa 阿片受体,但不改变 delta 阿片受体以及 proopiomelanocortin、proenkephalin 和 prodynorphin 转录物水平。除了自身显著降低树突棘密度外,吗啡还增强了更高水平 Tat 对树突棘的影响,并且还增强了 Tat 介导的树突病理,从而在多个层面导致适应性不良的神经可塑性。树突病理和树突棘密度的降低表明,Tat +/- 吗啡的持续暴露是神经艾滋病中慢性神经退行性变化的关键方面的基础,这可能导致滥用阿片类药物的 HIV 患者的神经功能恶化。

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