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缺乏免疫显性CD8 T细胞表位的博尔纳病病毒的致病潜力

Pathogenic potential of borna disease virus lacking the immunodominant CD8 T-cell epitope.

作者信息

Richter Kirsten, Baur Karen, Ackermann Andreas, Schneider Urs, Hausmann Jürgen, Staeheli Peter

机构信息

Department of Virology, University of Freiburg, Hermann-Herder-Strasse 11, D-79104 Freiburg, Germany.

出版信息

J Virol. 2007 Oct;81(20):11187-94. doi: 10.1128/JVI.00742-07. Epub 2007 Aug 8.

Abstract

Borna disease virus (BDV) is a highly neurotropic, noncytolytic virus. Experimentally infected B10.BR mice remain healthy unless specific antiviral T cells that infiltrate the infected brain are triggered by immunization. In contrast, infected MRL mice spontaneously mount an antiviral T-cell response that can result in meningoencephalitis and neurological disease. The antiviral T cells may, alternatively, eliminate the virus without inducing disease if they are present in sufficient numbers before the virus replicates to high titers. Since the immune response of H-2(k) mice is directed mainly against the epitope TELEISSI located in the viral nucleoprotein N, we generated BDV mutants that feature TQLEISSI in place of TELEISSI. We show that adoptive transfer of BDV N-specific CD8 T cells induced neurological disease in B10.BR mice persistently infected with wild-type BDV but not with the mutant virus expressing TQLEISSI. Surprisingly, the mutant virus replicated less well in adult MRL wild-type mice than in mutant mice lacking mature CD8 T cells. Furthermore, when MRL mice were infected with the TQLEISSI-expressing BDV mutant as newborns, neurological disease was observed, although at a lower rate and with slower kinetics than in mice infected with wild-type virus. These results confirm that TELEISSI is the major CD8 T-cell epitope in H-2(k) mice and suggest that unidentified minor epitopes are present in the BDV proteome which are recognized rather efficiently by antiviral T cells if the dominant epitope is absent.

摘要

博尔纳病病毒(BDV)是一种高度嗜神经性、非溶细胞性病毒。实验感染的B10.BR小鼠保持健康,除非通过免疫触发浸润感染大脑的特异性抗病毒T细胞。相比之下,感染的MRL小鼠会自发产生抗病毒T细胞反应,这可能导致脑膜脑炎和神经疾病。如果抗病毒T细胞在病毒复制到高滴度之前数量足够,它们也可以在不引发疾病的情况下清除病毒。由于H-2(k)小鼠的免疫反应主要针对位于病毒核蛋白N中的表位TELEISSI,我们构建了以TQLEISSI取代TELEISSI的BDV突变体。我们发现,将BDV N特异性CD8 T细胞过继转移到持续感染野生型BDV而非表达TQLEISSI的突变病毒的B10.BR小鼠中会诱发神经疾病。令人惊讶的是,突变病毒在成年MRL野生型小鼠中的复制能力不如在缺乏成熟CD8 T细胞的突变小鼠中。此外,当MRL小鼠在新生时感染表达TQLEISSI的BDV突变体时,虽然观察到神经疾病,但发病率低于感染野生型病毒的小鼠,且发病动力学较慢。这些结果证实TELEISSI是H-2(k)小鼠中的主要CD8 T细胞表位,并表明BDV蛋白质组中存在未鉴定的次要表位,如果主要表位不存在,这些次要表位会被抗病毒T细胞相当有效地识别。

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