The HIV-2 OGH double reporter virus shows that HIV-2 is less cytotoxic and less sensitive to reactivation from latency than HIV-1 in cell culture

IF 3.5 4区医学 Q2 IMMUNOLOGY

Journal of Virus Eradication Pub Date : 2023-09-01 DOI:10.1016/j.jve.2023.100343

Anne Bruggemans, Gerlinde Vansant, Paulien Van de Velde, Zeger Debyser

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引用次数: 1

Abstract

A better understanding of HIV-1 latency is a research priority in HIV cure research. Conversely, little is known about the latency characteristics of HIV-2, the closely related human lentivirus. Though both viruses cause AIDS, HIV-2 infection progresses more slowly with significantly lower viral loads, even when corrected for CD4⁺ T cell counts. Hence a direct comparison of latency characteristics between HIV-1 and HIV-2 could provide important clues towards a functional cure.

Transduction of SupT1 cells with single-round HIV-1 and HIV-2 viruses with an enhanced green fluorescent protein (eGFP) reporter showed higher levels of eGFP expression for HIV-2 than HIV-1, while HIV-1 expression appeared more cytotoxic. To compare HIV-1 and HIV-2 gene expression, latency and reactivation in more detail, we have generated HIV-2 OGH, a replication deficient, near full- length, double reporter virus that discriminates latently and productively infected cells in cell culture. This construct is based on HIV-1 OGH, and to our knowledge, first of its kind for HIV-2. Using this construct we have observed a higher eGFP expression for HIV-2, but higher losses of HIV-1 transduced cells in SupT1 and Jurkat cells and a reduced sensitivity of HIV-2 for reactivation with TNF-α. In addition, we have analysed HIV-2 integration sites and their epigenetic environment. HIV-1 and HIV-2 share a preference for actively transcribed genes in gene-dense regions and favor active chromatin marks while disfavoring methylation markers associated with heterochromatin. In conclusion the HIV-2 OGH construct provides an interesting tool for studying HIV-2 expression, latency and reactivation. As simian immunodeficiency virus (SIV) and HIV-2 have been proposed to model a functional HIV cure, a better understanding of the mechanisms governing HIV-2 and SIV latency will be important to move forward. Further research is needed to investigate if HIV-2 uses similar mechanisms as HIV-1 to achieve its integration site selectivity.

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HIV-2 OGH双重报告病毒表明，在细胞培养中，HIV-2比HIV-1具有更低的细胞毒性和对潜伏期再激活的敏感性

更好地了解HIV-1的潜伏性是HIV治疗研究的优先事项。相反，人们对密切相关的人类慢病毒HIV-2的潜伏特性知之甚少。尽管这两种病毒都会导致艾滋病，但HIV-2感染进展较慢，病毒载量明显较低，即使在校正CD4+T细胞计数时也是如此。因此，直接比较HIV-1和HIV-2之间的潜伏期特征可以为功能性治疗提供重要线索。用具有增强型绿色荧光蛋白（eGFP）报告子的单轮HIV-1和HIV-2病毒转导SupT1细胞显示，与HIV-1相比，eGFP对HIV-2的表达水平更高，而HIV-1的表达似乎更具细胞毒性。为了更详细地比较HIV-1和HIV-2基因的表达、潜伏期和再激活，我们产生了HIV-2 OGH，这是一种复制缺陷的、接近全长的双报告病毒，在细胞培养中识别潜伏和有效感染的细胞。该构建体基于HIV-1 OGH，据我们所知，这是HIV-2的第一个此类构建体。使用该构建体，我们观察到HIV-2的eGFP表达较高，但在SupT1和Jurkat细胞中HIV-1转导的细胞损失较高，并且HIV-2对TNF-α再激活的敏感性降低。此外，我们还分析了HIV-2整合位点及其表观遗传学环境。HIV-1和HIV-2对基因密集区的主动转录基因有共同的偏好，喜欢主动染色质标记，而不喜欢与异染色质相关的甲基化标记。总之，HIV-2 OGH构建体为研究HIV-2的表达、潜伏期和再激活提供了一个有趣的工具。由于猴免疫缺陷病毒（SIV）和HIV-2已被提出作为功能性HIV治疗的模型，更好地了解控制HIV-2和SIV潜伏时间的机制对向前发展至关重要。需要进一步的研究来调查HIV-2是否使用与HIV-1相似的机制来实现其整合位点的选择性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Virus Eradication Medicine-Public Health, Environmental and Occupational Health

CiteScore

6.10

自引率

1.80%

发文量

审稿时长

39 weeks

期刊介绍： The Journal of Virus Eradication aims to provide a specialist, open-access forum to publish work in the rapidly developing field of virus eradication. The Journal covers all human viruses, in the context of new therapeutic strategies, as well as societal eradication of viral infections with preventive interventions. The Journal is aimed at the international community involved in the prevention and management of viral infections. It provides an academic forum for the publication of original research into viral reservoirs, viral persistence and virus eradication and ultimately development of cures. The Journal not only publishes original research, but provides an opportunity for opinions, reviews, case studies and comments on the published literature. It focusses on evidence-based medicine as the major thrust in the successful management of viral infections.The Journal encompasses virological, immunological, epidemiological, modelling, pharmacological, pre-clinical and in vitro, as well as clinical, data including but not limited to drugs, immunotherapy and gene therapy. It is an important source of information on the development of vaccine programs and preventative measures aimed at virus eradication.