丙型肝炎病毒感染过程中病毒适应性和适应性免疫反应的时间动态变化

Melanie Rose Walker, Preston Leung, Elizabeth Keoshkerian, Mehdi R Pirozyan, Andrew Lloyd, Fabio Luciani, Rowena A Bull
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摘要

大量研究表明,躲过宿主免疫反应的病毒变异体可能会产生适应性代价,降低病毒株在宿主体内的存活率以及变异体在未来传播事件中的存活能力。此外,在免疫反应所针对的表位区之外同时出现的变异可能会增加或减少变异体存活的可能性(称为表位)。丙型肝炎病毒(HCV)缺乏对病毒适应性和非结构蛋白区表位的分析。在此,我们利用一组最近感染 HCV 的罕见受试者,通过整合数学模型和实验数据来研究不断进化的传播/创始(T/F)病毒、适应性免疫反应、病毒适应性和共存突变之间的相互作用,从而在先前研究的基础上更进一步。我们的研究表明,在感染后的前 90 天(DPI),病毒的适应性会下降,这与 CD8+ T 细胞反应的程度和最初的多样化水平有关。此后,病毒适应性在以多组并发突变为特征的复杂进化模式中反弹。最后,我们表明,在没有中和抗体(nAbs)的情况下,早期强烈的 CD8+ T 细胞反应会对 T/F 病毒群体产生强大的选择性力量,使病毒得以逃脱并建立慢性感染。了解这些动态变化与 HCV 疫苗的设计高度相关,并有助于制定一种同时针对 T 细胞和 B 细胞反应诱导广泛免疫力的疫苗策略。
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Temporal dynamics of viral fitness and the adaptive immune response in HCV infection
Numerous studies have shown that viral variants that elude the host immune response may incur a fitness expense, diminishing the survival of the viral strain within the host, and the capacity of the variant to survive future transmission events. Furthermore, co-occurring mutations outside the epitope regions targeted by the immune response may increase or decrease the likelihood of survival of the variant (known as epistasis). Analysis of viral fitness and epistasis over the non-structural protein regions is lacking for hepatitis C virus (HCV). Here, using a rare cohort of subjects very recently infected with HCV, we build upon our prior investigations by integrating mathematical modelling and experimental data to examine the interplay between the evolving transmitted/founder (T/F) viruses, the adaptive immune response, viral fitness, and co-occurring mutations. We show that viral fitness decreases during the first 90 days post-infection (DPI) associated with the magnitude of CD8+ T-cell responses and the initial level of diversification. Thereafter, viral fitness rebounds in a complex pattern of evolution characterized by multiple sets of co-occurring mutations. Finally, we show that an early and strong CD8+ T-cell response in the absence of neutralizing antibodies (nAbs) imposes a strong selective force on the T/F virus population, enabling the virus to escape and establish chronic infection. Understanding these dynamics is highly relevant for HCV vaccine design and supports a vaccine strategy that induces broad immunity targeting both T and B cell responses.
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