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HIV和阿片类药物会使钾氯共转运体2(KCC2)失调,从而在原代人类神经元和Tat转基因小鼠中导致γ-氨基丁酸能功能障碍。

HIV and opiates dysregulate K- Cl cotransporter 2 (KCC2) to cause GABAergic dysfunction in primary human neurons and Tat-transgenic mice.

作者信息

Barbour Aaron J, Hauser Kurt F, McQuiston A Rory, Knapp Pamela E

机构信息

Departments of Anatomy and Neurobiology, Virginia Commonwealth University School of Medicine, Richmond, VA 23298, USA.

Departments of Anatomy and Neurobiology, Virginia Commonwealth University School of Medicine, Richmond, VA 23298, USA; Pharmacology and Toxicology, Virginia Commonwealth University School of Medicine, Richmond, VA 23298, USA; Institute for Drug and Alcohol Studies, Virginia Commonwealth University School of Medicine, Richmond, VA 23298, USA.

出版信息

Neurobiol Dis. 2020 Jul;141:104878. doi: 10.1016/j.nbd.2020.104878. Epub 2020 Apr 25.

DOI:10.1016/j.nbd.2020.104878
PMID:32344154
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7685173/
Abstract

Approximately half of people infected with HIV (PWH) exhibit HIV-associated neuropathology (neuroHIV), even when receiving combined antiretroviral therapy. Opiate use is widespread in PWH and exacerbates neuroHIV. While neurons themselves are not infected, they incur sublethal damage and GABAergic disruption is selectively vulnerable to viral and inflammatory factors released by infected/affected glia. Here, we demonstrate diminished K-Cl cotransporter 2 (KCC2) levels in primary human neurons after exposure to HIV-1 or HIV-1 proteins ± morphine. Resulting disruption of GABAR-mediated hyperpolarization/inhibition was shown using genetically-encoded voltage (Archon1) and calcium (GCaMP6f) indicators. The HIV proteins Tat (acting through NMDA receptors) and R5-gp120 (acting via CCR5) but not X4-tropic gp120 (acting via CXCR4), and morphine (acting through μ-opioid receptors) all induced KCC2 loss. We demonstrate that modifying KCC2 levels or function, or antagonizing NMDAR, CCR5 or MOR rescues KCC2 and GABAR-mediated hyperpolarization/inhibition in HIV, Tat, or gp120 ± morphine-exposed neurons. Using an inducible, Tat-transgenic mouse neuroHIV model, we found that chronic exposure to Tat also reduces KCC2. Our results identify KCC2 as a novel therapeutic target for ameliorating the pathobiology of neuroHIV, including PWH exposed to opiates.

摘要

大约一半的艾滋病毒感染者(PWH)会出现与艾滋病毒相关的神经病理学症状(神经型艾滋病),即使他们正在接受联合抗逆转录病毒治疗。阿片类药物在PWH中广泛使用,会加重神经型艾滋病。虽然神经元本身不会被感染,但它们会受到亚致死性损伤,而γ-氨基丁酸能神经传递的破坏对受感染/受影响的神经胶质细胞释放的病毒和炎症因子特别敏感。在此,我们证明,原代人神经元在暴露于HIV-1或HIV-1蛋白±吗啡后,钾-氯共转运体2(KCC2)水平降低。使用基因编码的电压(Archon1)和钙(GCaMP6f)指示剂显示,由此导致的γ-氨基丁酸受体介导的超极化/抑制作用受到破坏。HIV蛋白Tat(通过N-甲基-D-天冬氨酸受体起作用)和R5-糖蛋白120(通过CCR5起作用)而非X嗜性糖蛋白120(通过CXCR4起作用)以及吗啡(通过μ-阿片受体起作用)均诱导KCC2丢失。我们证明,改变KCC2水平或功能,或拮抗N-甲基-D-天冬氨酸受体、CCR5或μ-阿片受体,可挽救HIV、Tat或糖蛋白120±吗啡暴露神经元中的KCC2和γ-氨基丁酸受体介导的超极化/抑制作用。使用一种可诱导的、Tat转基因小鼠神经型艾滋病模型,我们发现长期暴露于Tat也会降低KCC2。我们的研究结果确定KCC2是改善神经型艾滋病病理生物学的一个新的治疗靶点,包括对阿片类药物成瘾的PWH。

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