Inhibition of Vesivirus infections in mammalian tissue culture with antisense morpholino oligomers.

D. A. Stein, D. Skilling, P. Iversen, A. W. Smith
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引用次数: 43

Abstract

Caliciviruses infect and cause disease in animals and humans. They are nonenveloped, positive-stranded RNA viruses with a genome of approximately 7.5 kb that encodes viral proteins in three open reading frames (ORF). Antisense oligomers targeting one of the three ORF of caliciviruses of the genus Vesivirus significantly inhibit viral replication in tissue culture. Porcine kidney and African green monkey kidney cells were infected with Vesivirus isolates SMSV-13 and PCV Pan-1. Phosphorodiamidate morpholino oligomers (PMO) with sequence complementary to the AUG translation start site regions of ORF1, ORF2, and ORF3 were evaluated for their effect on viral titer. Scrape-loading delivered PMO to 50%-70% of the cells of the two cell lines, as measured by fluorescence microscopy and flow cytometry. A PMO targeting ORF3 caused a significant increase in viral titer. A PMO targeting ORF2, a scrambled PMO control sequence, and an unrelated PMO antisense sequence did not alter viral titer. Various PMO sequences antisense to an upstream region of ORF1 were effective in reducing viral titer up to 80% in a dose-dependent and sequence-specific manner. The extent of viral titer reduction was proportional to the delivery of PMO to cells. These observations demonstrate that antisense PMO can disrupt caliciviral gene function in a nucleic acid sequence-specific manner and are potentially effective antiviral agents.
反义morpholino低聚物对哺乳动物组织培养中Vesivirus感染的抑制作用。
杯状病毒感染动物和人类并引起疾病。它们是非包膜的正链RNA病毒,基因组约为7.5 kb,在三个开放阅读框(ORF)中编码病毒蛋白。在组织培养中,针对花状病毒三种ORF之一的反义寡聚物显著抑制病毒复制。用Vesivirus分离株smv -13和PCV Pan-1分别感染猪肾和非洲绿猴肾细胞。与ORF1、ORF2和ORF3的AUG翻译起始位点区域序列互补的磷酸二酯morpholino oligomer (PMO)对病毒滴度的影响进行了评估。通过荧光显微镜和流式细胞术测量,刮片加载将PMO传递给两种细胞系的50%-70%的细胞。针对ORF3的PMO导致病毒滴度显著增加。靶向ORF2的PMO、打乱的PMO控制序列和不相关的PMO反义序列不改变病毒滴度。对ORF1上游区域反义的各种PMO序列以剂量依赖性和序列特异性的方式有效地将病毒滴度降低高达80%。病毒滴度降低的程度与PMO向细胞的递送成正比。这些观察结果表明,反义PMO能够以核酸序列特异性的方式破坏钙状病毒基因功能,是潜在的有效抗病毒药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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