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在小胶质细胞操纵的转基因小鼠中鉴定感染EcoHIV的细胞。

Identification of EcoHIV-Infected Cells in Microglia-Manipulated Transgenic Mice.

作者信息

Li Hailong, Walker Makensie, Ji Hao, Sikirzhytskaya Aliaksandra, Aksenova Marina, Shtutman Michael, Sikirzhytski Vitali, Mactutus Charles F, Booze Rosemarie M

机构信息

Cognitive and Neural Sciences, Department of Psychology, University of South Carolina.

Department of Drug Discovery and Biomedical Sciences, College of Pharmacy, University of South Carolina.

出版信息

J Vis Exp. 2024 Dec 20(214). doi: 10.3791/67150.

Abstract

Combined antiretroviral therapy (cART) has dramatically improved the quality of life for people living with HIV (PLWH). However, over 4 million PLWH are over the age of fifty and experience accompanying HIV-associated neurocognitive disorders (HAND). To understand how HIV impacts the central nervous system, a reliable and feasible model of HIV is necessary. Previously, a novel biological system using chimeric HIV (EcoHIV) inoculation was developed in a rat model to investigate neurocognitive impairments and synaptic dysfunction. Nevertheless, a significant challenge remains in clarifying EcoHIV's neuroanatomical distribution, particularly its differential expression in various cell types in the brain. In the current study, EcoHIV with mScarlet fluorescence labeling was modified and retro-orbitally injected into Tmem119-EGFP knock-in mice (which express enhanced green fluorescence protein primarily in microglia) to determine if microglia are the major cell type responsible for viral expression and reservoirs of HIV in the brain. The current data show that: (1) in vitro, EcoHIV-mScarlet fluorescence signals were predominantly localized in microglia-like cells among primary rodent brain cells; (2) in vivo, injection of EcoHIV-mScarlet into Tmem119-EGFP mice induced significant HIV expression in the mouse brain. The co-localization of mScarlet and EGFP signals suggests that microglia are the main cell type harboring HIV in the brain. Overall, EcoHIV in rodents offers a valuable biological system to study microglial alterations, viral reservoirs in the brain, and the neurological mechanisms of HIV-associated neurocognitive disorders.

摘要

联合抗逆转录病毒疗法(cART)显著改善了艾滋病毒感染者(PLWH)的生活质量。然而,超过400万PLWH年龄在50岁以上,并伴有与艾滋病毒相关的神经认知障碍(HAND)。为了了解艾滋病毒如何影响中枢神经系统,需要一个可靠且可行的艾滋病毒模型。此前,在大鼠模型中开发了一种使用嵌合艾滋病毒(EcoHIV)接种的新型生物系统,以研究神经认知障碍和突触功能障碍。然而,在阐明EcoHIV的神经解剖分布,特别是其在大脑中各种细胞类型中的差异表达方面,仍然存在重大挑战。在当前研究中,对带有mScarlet荧光标记的EcoHIV进行了改造,并经眶后注射到Tmem119-EGFP基因敲入小鼠(主要在小胶质细胞中表达增强型绿色荧光蛋白)体内,以确定小胶质细胞是否是大脑中负责病毒表达和艾滋病毒储存库的主要细胞类型。目前的数据表明:(1)在体外,EcoHIV-mScarlet荧光信号主要定位于原代啮齿动物脑细胞中的小胶质细胞样细胞中;(2)在体内,将EcoHIV-mScarlet注射到Tmem119-EGFP小鼠体内可诱导小鼠大脑中显著的艾滋病毒表达。mScarlet和EGFP信号的共定位表明,小胶质细胞是大脑中携带艾滋病毒的主要细胞类型。总体而言,啮齿动物中的EcoHIV提供了一个有价值的生物系统,用于研究小胶质细胞变化、大脑中的病毒储存库以及与艾滋病毒相关的神经认知障碍的神经机制。

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