Department of Internal Medicine I, University Hospital Tübingen, Tübingen, Germany.
J Virol. 2013 Mar;87(6):3484-501. doi: 10.1128/JVI.02106-12. Epub 2013 Jan 9.
The oncolytic potential of measles vaccine virus (MeV) has been demonstrated in several tumor entities. Here, we investigated the susceptibility of eight sarcoma cell lines to MeV-mediated oncolysis and found five to be susceptible, whereas three proved to be resistant. In the MeV-resistant cell lines, we often observed an inhibition of viral replication along with a strong upregulation of the intracellular virus-sensing molecule RIG-I and of the interferon (IFN)-stimulated gene IFIT1. Not only expression of IFIT1 but also phosphorylation of IFN-stimulated Stat1 took place rapidly and were found to be persistent over time. In contrast, susceptible cell lines showed a much weaker, delayed, or completely missing expression of IFIT1 as well as a delayed or only transient phosphorylation of Stat1, whereas exogenic stimulation with beta interferon (IFN-β) resulted in a comparable profound activation of Stat1 and expression of IFIT1 in all cell lines. Pretreatment with IFN-β rendered three of the susceptible cell lines more resistant to MeV-mediated oncolysis. These data suggest that differences in the innate immune defense often account for different degrees of susceptibility of sarcoma cell lines to MeV-mediated oncolysis. From a therapeutic perspective, we were able to overcome resistance to MeV by increasing the multiplicity of infection (MOI) and by addition of the prodrug 5-fluorocytosine (FC), thereby exploiting the suicide gene function of virotherapeutic vector MeV-SCD armed with the SCD fusion protein, which consists of yeast cytosine deaminase and yeast uracil phosphoribosyltransferase.
麻疹病毒(Measles vaccine virus,MeV)的溶瘤潜力已在多种肿瘤实体中得到证实。在这里,我们研究了八种肉瘤细胞系对 MeV 介导的溶瘤作用的敏感性,发现其中五种对 MeV 敏感,而三种对 MeV 耐药。在 MeV 耐药细胞系中,我们经常观察到病毒复制受到抑制,同时细胞内病毒感应分子 RIG-I 和干扰素(Interferon,IFN)刺激基因 IFIT1 的表达上调。IFIT1 的表达不仅上调,而且 IFN 刺激的 Stat1 磷酸化也迅速发生,并随着时间的推移持续存在。相比之下,敏感细胞系中 IFIT1 的表达较弱、延迟或完全缺失,Stat1 的磷酸化也延迟或仅短暂,而外源性刺激β干扰素(IFN-β)则导致所有细胞系中 Stat1 的激活和 IFIT1 的表达相似。IFN-β 的预处理使三种敏感细胞系对 MeV 介导的溶瘤作用更具耐药性。这些数据表明,先天免疫防御的差异常常导致肉瘤细胞系对 MeV 介导的溶瘤作用的敏感性不同。从治疗的角度来看,我们能够通过增加感染复数(Multiplicity of infection,MOI)和添加前体药物 5-氟胞嘧啶(5-Fluorocytosine,FC)来克服对 MeV 的耐药性,从而利用携带 SCD 融合蛋白的溶瘤病毒 MeV-SCD 的自杀基因功能,该融合蛋白由酵母胞嘧啶脱氨酶和酵母尿嘧啶磷酸核糖转移酶组成。