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恒河猴接种猴免疫缺陷病毒 SIVmac239Delta nef 后,可延迟在多次重复低剂量异源 SIV 挑战后获得感染和控制病毒复制。

Macaques vaccinated with simian immunodeficiency virus SIVmac239Delta nef delay acquisition and control replication after repeated low-dose heterologous SIV challenge.

机构信息

AIDS Vaccine Research Laboratory, 555 Science Dr., Madison, WI 53711, USA.

出版信息

J Virol. 2010 Sep;84(18):9190-9. doi: 10.1128/JVI.00041-10. Epub 2010 Jun 30.

DOI:10.1128/JVI.00041-10
PMID:20592091
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2937616/
Abstract

An effective human immunodeficiency virus (HIV) vaccine will likely need to reduce mucosal transmission and, if infection occurs, control virus replication. To determine whether our best simian immunodeficiency virus (SIV) vaccine can achieve these lofty goals, we vaccinated eight Indian rhesus macaques with SIVmac239Delta nef and challenged them intrarectally (i.r.) with repeated low doses of the pathogenic heterologous swarm isolate SIVsmE660. We detected a significant reduction in acquisition of SIVsmE660 in comparison to that for naïve controls (log rank test; P = 0.023). After 10 mucosal challenges, we detected replication of the challenge strain in only five of the eight vaccinated animals. In contrast, seven of the eight control animals became infected with SIVsmE660 after these 10 challenges. Additionally, the SIVsmE660-infected vaccinated animals controlled peak acute virus replication significantly better than did the naïve controls (Mann-Whitney U test; P = 0.038). Four of the five SIVsmE660 vaccinees rapidly brought virus replication under control by week 4 postinfection. Unfortunately, two of these four vaccinated animals lost control of virus replication during the chronic phase of infection. Bulk sequence analysis of the circulating viruses in these animals indicated that recombination had occurred between the vaccine and challenge strains and likely contributed to the increased virus replication in these animals. Overall, our results suggest that a well-designed HIV vaccine might both reduce the rate of acquisition and control viral replication.

摘要

一种有效的人类免疫缺陷病毒(HIV)疫苗可能需要降低黏膜传播的风险,并且在感染发生时控制病毒复制。为了确定我们最好的猿猴免疫缺陷病毒(SIV)疫苗是否能够实现这些崇高的目标,我们用 SIVmac239Delta nef 疫苗对 8 只印度恒河猴进行了接种,并通过直肠内(i.r.)重复低剂量接种致病性异源 SIVsmE660 对其进行了挑战。与未接种的对照动物相比,我们检测到 SIVsmE660 获得性感染的显著减少(对数秩检验;P=0.023)。在 10 次黏膜挑战后,我们仅在 8 只接种疫苗的动物中的 5 只中检测到了挑战株的复制。相比之下,在这 10 次挑战后,8 只对照动物中的 7 只都感染了 SIVsmE660。此外,与未接种的对照动物相比,感染 SIVsmE660 的接种动物在急性病毒复制高峰期的控制要好得多(Mann-Whitney U 检验;P=0.038)。在感染后 4 周,5 只 SIVsmE660 疫苗接种动物中有 4 只迅速控制了病毒复制。不幸的是,这 4 只接种疫苗的动物中有 2 只在感染的慢性期失去了对病毒复制的控制。对这些动物循环病毒的大量序列分析表明,疫苗和挑战株之间发生了重组,这可能导致这些动物的病毒复制增加。总体而言,我们的结果表明,设计良好的 HIV 疫苗可能既可以降低获得感染的速度,又可以控制病毒复制。

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