重组水泡性口炎病毒作为HIV-1疫苗载体的研究

Springer seminars in immunopathology Pub Date : 2006-11-01 Epub Date: 2006-09-15 DOI:10.1007/s00281-006-0042-3
David K Clarke, David Cooper, Michael A Egan, R Michael Hendry, Christopher L Parks, Stephen A Udem
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引用次数: 62

摘要

重组水疱性口炎病毒(rVSV)目前正在评估作为人类免疫缺陷病毒(HIV)-1疫苗载体。开发rVSV作为疫苗载体的最令人信服的理由包括:它在人类中的血清阳性率非常低,能够感染并在广泛的细胞中强烈表达外源抗原,以及在用于疫苗制造的连续细胞系中生长旺盛。大量表达多种人类病原体抗原的rVSV载体的临床前研究已经证明了rVSV疫苗平台的多功能性、灵活性和潜在功效。当给予非人灵长类动物(NHPs)时,表达HIV-1 Gag和Env的rVSV载体引发了强大的HIV-1特异性细胞和体液免疫反应,并且用表达猴免疫缺陷病毒(SIV) Gag和HIV Env的rVSV载体免疫的动物在感染致病性SIV/HIV重组病毒后免受艾滋病的侵害。然而,一项针对NHPs的探索性神经毒力研究的结果表明,这些典型的rVSV载体可能没有被充分减毒,无法在人群中广泛使用。为了解决这一安全问题,目前正在研究各种不同的衰减策略,旨在产生一系列进一步衰减的rVSV载体。为了平衡免疫原性和衰减性,正在开发进一步减毒的rVSV载体的其他修饰,以上调HIV-1抗原的表达和共表达分子佐剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Recombinant vesicular stomatitis virus as an HIV-1 vaccine vector.

Recombinant vesicular stomatitis virus as an HIV-1 vaccine vector.

Recombinant vesicular stomatitis virus as an HIV-1 vaccine vector.

Recombinant vesicular stomatitis virus as an HIV-1 vaccine vector.

Recombinant vesicular stomatitis virus (rVSV) is currently under evaluation as a human immunodeficiency virus (HIV)-1 vaccine vector. The most compelling reasons to develop rVSV as a vaccine vector include a very low seroprevalence in humans, the ability to infect and robustly express foreign antigens in a broad range of cells, and vigorous growth in continuous cell lines used for vaccine manufacture. Numerous preclinical studies with rVSV vectors expressing antigens from a variety of human pathogens have demonstrated the versatility, flexibility, and potential efficacy of the rVSV vaccine platform. When administered to nonhuman primates (NHPs), rVSV vectors expressing HIV-1 Gag and Env elicited robust HIV-1-specific cellular and humoral immune responses, and animals immunized with rVSV vectors expressing simian immunodeficiency virus (SIV) Gag and HIV Env were protected from AIDS after challenge with a pathogenic SIV/HIV recombinant. However, results from an exploratory neurovirulence study in NHPs indicated that these prototypic rVSV vectors might not be adequately attenuated for widespread use in human populations. To address this safety concern, a variety of different attenuation strategies, designed to produce a range of further attenuated rVSV vectors, are currently under investigation. Additional modifications of further attenuated rVSV vectors to upregulate expression of HIV-1 antigens and coexpress molecular adjuvants are also being developed in an effort to balance immunogenicity and attenuation.

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