以毒攻毒:需要一种基于内在无序和结构灵活性的疫苗

V. Uversky
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引用次数: 0

摘要

几种人类病毒,如丙型肝炎病毒(HCV)、人类免疫缺陷病毒1型(HIV-1)和单纯疱疹病毒(hsv),尽管分别进行了30年、40年甚至60年的研究,但在寻找有效疫苗方面缺乏进展,这令人不安。造成这种失败的客观原因包括:作为这些病毒的初级疫苗靶点的蛋白质的高度糖基化性质、新位体和隐位体的存在、HCV和HIV-1 RNA病毒的高突变率以及单纯疱疹病毒建立潜伏期的能力。然而,基于结构的反向疫苗学在这些病毒的应用上缺乏成功,可能与人抗体(Abs)和HIV-1、HCV和hsv的主要免疫原及其表面糖蛋白中存在高度灵活和内在无序的区域有关。这显然需要从基于合理结构的疫苗学转向基于利用分析无序和柔性蛋白的工具的非结构疫苗学,同时研究内在无序的病毒抗原及其与内在无序/柔性抗体的相互作用。
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Fight fire with fire: the need for a vaccine based on intrinsic disorder and structural flexibility
The absence of advancement in finding efficient vaccines for several human viruses, such as hepatitis C virus (HCV), human immunodeficiency virus type 1 (HIV-1), and herpes simplex viruses (HSVs) despite 30, 40, and even 60 years of research, respectively, is unnerving. Among objective reasons for such failure are the highly glycosylated nature of proteins used as primary vaccine targets against these viruses and the presence of neotopes and cryptotopes, as well as high mutation rates of the RNA viruses HCV and HIV-1 and the capability to establish latency by HSVs. However, the lack of success in utilization of the structure-based reverse vaccinology for these viruses is likely to be related to the presence of highly flexible and intrinsically disordered regions in human antibodies (Abs) and the major immunogens of HIV-1, HCV, and HSVs, their surface glycoproteins. This clearly calls for moving from the rational structure-based vaccinology to the unstructural vaccinology based on the utilization of tools designed for the analysis of disordered and flexible proteins, while looking at intrinsically disordered viral antigens and their interactions with intrinsically disordered/flexible Abs.
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