单纯疱疹病毒:洞察进化、基因传递和肿瘤免疫疗法的多功能工具。

Q1 Medicine Virology: Research and Treatment Pub Date : 2020-05-29 eCollection Date: 2020-01-01 DOI:10.1177/1178122X20913274
Prapti H Mody, Sushila Pathak, Laura K Hanson, Juliet V Spencer
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摘要

疱疹病毒在整个动物界都很普遍,它们与宿主物种共存和共同进化了数百万年。疱疹病毒携带一个大的(120-230 kb)双链 DNA 基因组,基因组周围有蛋白囊、由病毒蛋白和宿主蛋白组成的护膜层以及带有表面糖蛋白的脂质双层包膜。这些病毒的一个主要特征是在初次感染后能够进入潜伏状态,从而躲避宿主的免疫系统并永久存在。疱疹病毒可以从休眠状态重新激活,通常是在压力大或宿主的免疫反应受损时。虽然疱疹病毒会给免疫力低下的人带来严重的并发症,但大多数人很少受到疱疹病毒感染的不良影响。事实上,单纯疱疹病毒 1(HSV-1)尤其具有几个特点,使其成为一种有吸引力的治疗基因递送工具。单纯疱疹病毒 1 可靶向感染特定类型的细胞,如上皮细胞和神经元。HSV-1 基因组还可容纳长达 14 kb 的大插入片段。基于 HSV-1 的载体已成功用于黑色素瘤的溶瘤治疗。除了作为治疗基因递送和靶向细胞裂解的载体外,疱疹病毒 HSV-1 和 2 的比较基因组学还揭示了这两种病毒及其宿主进化史的宝贵信息。本综述将重点讨论 HSV-1 作为基因递送工具和进化标记的适应性。总之,HSV-1 在治疗人类疾病、研究人类迁徙模式、疾病爆发和进化方面大有可为。
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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Herpes Simplex Virus: A Versatile Tool for Insights Into Evolution, Gene Delivery, and Tumor Immunotherapy.

Herpesviruses are prevalent throughout the animal kingdom, and they have coexisted and coevolved along with their host species for millions of years. Herpesviruses carry a large (120-230 kb) double-stranded DNA genome surrounded by a protein capsid, a tegument layer consisting of viral and host proteins, and a lipid bilayer envelope with surface glycoproteins. A key characteristic of these viruses is their ability to enter a latent state following primary infection, allowing them to evade the host's immune system and persist permanently. Herpesviruses can reactivate from their dormant state, usually during times of stress or when the host's immune responses are impaired. While herpesviruses can cause complications with severe disease in immune-compromised people, most of the population experiences few ill effects from herpesvirus infections. Indeed, herpes simplex virus 1 (HSV-1) in particular has several features that make it an attractive tool for therapeutic gene delivery. Herpes simplex virus 1 targets and infects specific cell types, such as epithelial cells and neurons. The HSV-1 genome can also accommodate large insertions of up to 14 kb. The HSV-1-based vectors have already achieved success for the oncolytic treatment of melanoma. In addition to serving as a vehicle for therapeutic gene delivery and targeted cell lysis, comparative genomics of herpesviruses HSV-1 and 2 has revealed valuable information about the evolutionary history of both viruses and their hosts. This review focuses on the adaptability of HSV-1 as an instrument for gene delivery and an evolutionary marker. Overall, HSV-1 shows great promise as a tool for treating human disease and studying human migration patterns, disease outbreaks, and evolution.

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Virology: Research and Treatment
Virology: Research and Treatment Medicine-Infectious Diseases
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