Division of Microbiology, Tulane National Primate Research Center (TNPRC), Covington, Louisiana, USA.
Center for Vaccine Research, University of Pittsburgh, Pittsburgh, Pennsylvania, USA.
J Virol. 2014 Jun;88(12):6778-92. doi: 10.1128/JVI.03785-13. Epub 2014 Apr 2.
While simian immunodeficiency viruses (SIVs) are generally nonpathogenic in their natural hosts, dramatic increases in pathogenicity may occur upon cross-species transmission to new hosts. Deciphering the drivers of these increases in virulence is of major interest for understanding the emergence of new human immunodeficiency viruses (HIVs). We transmitted SIVsab from the sabaeus species of African green monkeys (AGMs) to pigtailed macaques (PTMs). High acute viral replication occurred in all SIVsab-infected PTMs, yet the outcome of chronic infection was highly variable, ranging from rapid progression to controlled infection, which was independent of the dynamics of acute viral replication, CD4(+) T cell depletion, or preinfection levels of microbial translocation. Infection of seven PTMs with plasma collected at necropsy from a rapid-progressor PTM was consistently highly pathogenic, with high acute and chronic viral replication, massive depletion of memory CD4(+) T cells, and disease progression in all PTMs. The plasma inoculum used for the serial passage did not contain adventitious bacterial or viral contaminants. Single-genome amplification showed that this inoculum was significantly more homogenous than the inoculum directly derived from AGMs, pointing to a strain selection in PTMs. In spite of similar peak plasma viral loads between the monkeys in the two passages, immune activation/inflammation levels dramatically increased in PTMs infected with the passaged virus. These results suggest that strain selection and a massive cytokine storm are major factors behind increased pathogenicity of SIV upon serial passage and adaptation of SIVs to new hosts following cross-species transmission.
We report here that upon cross-species transmission and serial passage of SIVsab from its natural host, the sabaeus African green monkey (AGM), to a new host, the pigtailed macaque (PTM), viral adaptation and increased pathogenicity involve strain selection and a massive cytokine storm. These results permit the design of strategies aimed at preventing cross-species transmission from natural hosts of SIVs to humans in areas of endemicity. Furthermore, our study describes a new animal model for SIV infection. As the outcomes of SIVsab infection in PTMs, African green monkeys, and rhesus macaques are different, the use of these systems enables comparative studies between pathogenic, nonpathogenic, and elite-controlled infections, to gain insight into the mechanisms of SIV immunodeficiency and comorbidities.
虽然猿猴免疫缺陷病毒(SIVs)在其自然宿主中通常不具致病性,但在跨物种传播到新宿主时,其致病性可能会显著增加。破译这些毒力增加的驱动因素对于理解新的人类免疫缺陷病毒(HIVs)的出现具有重要意义。我们将来自非洲绿猴(AGM)的 SIVsab 从 sabaeus 物种传播到长尾猕猴(PTM)。所有 SIVsab 感染的 PTM 中均发生了高急性病毒复制,但慢性感染的结果差异很大,从快速进展到控制感染不等,这与急性病毒复制、CD4+T 细胞耗竭或感染前微生物易位的动态无关。从快速进展的 PTM 尸检时采集的血浆感染了 7 只 PTM,结果均具有高度致病性,具有高急性和慢性病毒复制、大量记忆 CD4+T 细胞耗竭以及所有 PTM 的疾病进展。用于连续传代的血浆接种物不含偶然的细菌或病毒污染物。单基因组扩增显示,与直接从 AGM 获得的接种物相比,该接种物明显更均匀,表明 PTM 中存在菌株选择。尽管两个传代的猴子之间的峰值血浆病毒载量相似,但感染传代病毒的 PTM 中的免疫激活/炎症水平显著增加。这些结果表明,在跨物种传播和 SIV 适应新宿主后进行连续传代时,菌株选择和大规模细胞因子风暴是 SIV 致病性增加的主要因素。
我们在这里报告,在 SIVsab 从其自然宿主 sabaeus 非洲绿猴(AGM)传播到新宿主长尾猕猴(PTM)后,跨物种传播和连续传代,病毒适应和致病性增加涉及菌株选择和大规模细胞因子风暴。这些结果允许设计旨在防止 SIV 从其自然宿主向流行地区的人类跨物种传播的策略。此外,我们的研究描述了一种新的 SIV 感染动物模型。由于 PTM、非洲绿猴和恒河猴中 SIVsab 感染的结果不同,因此使用这些系统可以在致病性、非致病性和精英控制感染之间进行比较研究,以深入了解 SIV 免疫缺陷和合并症的机制。
