水痘-带状疱疹病毒Oka亲本株和疫苗株溶细胞感染期间病毒转录的比较。

Comparison of virus transcription during lytic infection of the Oka parental and vaccine strains of Varicella-Zoster virus.

作者信息

Cohrs Randall J, Gilden Donald H, Gomi Yasuyuki, Yamanishi Koichi, Cohen Jeffrey I

机构信息

Department of Neurology, University of Colorado Health Sciences Center, Denver, 80262, USA.

出版信息

J Virol. 2006 Mar;80(5):2076-82. doi: 10.1128/JVI.80.5.2076-2082.2006.

DOI:10.1128/JVI.80.5.2076-2082.2006

PMID:16474115

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1395396/

Abstract

The attenuated Oka vaccine (V-Oka) strain of varicella-zoster virus (VZV) effectively reduces disease produced by primary infection and virus reactivation. V-Oka was developed by propagation of the Oka parental (P-Oka) strain of VZV in guinea pig and human embryo fibroblasts. Complete DNA sequencing of both viruses has revealed 63 sites that differ between P-Oka and V-Oka, 37 of which are located within 21 unique open reading frames (ORFs). Of the ORFs that differ, ORF 62 contains the greatest number (10) of mutated sites. ORF 62 encodes IE 62, the major immediate-early transactivator of virus genes, and is essential for lytic virus replication. To determine whether a disproportionate number of mutations in ORF 62 might account for virus attenuation, we compared the global pattern of V-Oka gene expression to that of P-Oka. Transcription of ORFs 62, 65, 66, and 67 was suppressed, whereas ORF 41 was elevated in V-Oka-infected cells compared to P-Oka-infected cells (P < 0.01; z test). Suppression of ORF 62, 65, and 66 transcription was confirmed by quantitative dot blot and Western blot analyses. Transient-transfection assays to determine whether mutations within V-Oka-derived IE 62 affected its ability to transactivate VZV gene promoters revealed similar IE 62 transactivation of VZV gene 20, 21, 28, 29, 65, and 66 promoters in both P-Oka and V-Oka. Together, our results indicate that mutations in V-Oka IE 62 alone are unlikely to account for vaccine virus attenuation.

摘要

水痘-带状疱疹病毒（VZV）的减毒Oka疫苗（V-Oka）株能有效减轻原发性感染和病毒再激活所引发的疾病。V-Oka是通过在豚鼠和人胚成纤维细胞中传代培养VZV的Oka亲本（P-Oka）株而研制出来的。对这两种病毒进行的全基因组DNA测序显示，P-Oka和V-Oka之间有63个位点不同，其中37个位于21个独特的开放阅读框（ORF）内。在这些不同的ORF中，ORF 62所含的突变位点数量最多（10个）。ORF 62编码IE 62，它是病毒基因的主要立即早期反式激活因子，对病毒的裂解性复制至关重要。为了确定ORF 62中不成比例的大量突变是否可能是病毒减毒的原因，我们将V-Oka基因表达的整体模式与P-Oka的进行了比较。与感染P-Oka的细胞相比，感染V-Oka的细胞中ORF 62、65、66和67的转录受到抑制，而ORF 41的转录则升高（P < 0.01；z检验）。通过定量斑点印迹和蛋白质印迹分析证实了ORF 62、65和66转录的抑制。通过瞬时转染试验来确定源自V-Oka的IE 62中的突变是否影响其反式激活VZV基因启动子的能力，结果显示，在P-Oka和V-Oka中，IE 62对VZV基因20、21、28、29、65和66启动子的反式激活作用相似。总之，我们的结果表明，仅V-Oka IE 62中的突变不太可能是疫苗病毒减毒的原因。

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