Levi Laura I, Madden Emily A, Boussier Jeremy, Erazo Diana, Sanders Wes, Vallet Thomas, Bernhauerova Veronika, Moorman Nathaniel J, Heise Mark T, Vignuzzi Marco
Viral Populations and Pathogenesis Unit, Department of Virology, Institut Pasteur, CNRS UMR 3569, 75015 Paris, France.
Infectious Disease Department, Université Paris Cité and Hôpital Saint-Louis and Lariboisière, APHP, INSERM U944, 75010 Paris, France.
Microorganisms. 2024 Aug 29;12(9):1794. doi: 10.3390/microorganisms12091794.
Chikungunya virus (CHIKV) is a mosquito-borne RNA virus that poses an emerging threat to humans. In a manner similar to other RNA viruses, CHIKV encodes an error-prone RNA polymerase which, in addition to producing full-length genomes, gives rise to truncated, non-functional genomes, which have been coined defective viral genomes (DVGs). DVGs have been intensively studied in the context of therapy, as they can inhibit viral replication and dissemination in their hosts. In this work, we interrogate the influence of viral RNA secondary structures on the production of CHIKV DVGs. We experimentally map RNA secondary structures of the CHIKV genome using selective 2'-hydroxyl acylation analyzed by primer extension and mutational profiling (SHAPE-MaP), which couples chemical labelling with next-generation sequencing. We correlate the inferred secondary structure with preferred deletion sites of CHIKV DVGs. We document an increased probability of DVG generation with truncations at unpaired nucleotides within the secondary structure. We then generated a CHIKV mutant bearing synonymous changes at the nucleotide level to disrupt the existing RNA secondary structure (CHIKV-D2S). We show that CHIKV-D2S presents altered DVG generation compared to wild-type virus, correlating with the change in RNA secondary structure obtained by SHAPE-MaP. Our work thus demonstrates that RNA secondary structure impacts CHIKV DVG production during replication.
基孔肯雅病毒(CHIKV)是一种通过蚊子传播的RNA病毒,对人类构成了新出现的威胁。与其他RNA病毒类似,CHIKV编码一种易出错的RNA聚合酶,该酶除了产生全长基因组外,还会产生截短的、无功能的基因组,这些基因组被称为缺陷病毒基因组(DVGs)。DVGs在治疗背景下已得到深入研究,因为它们可以抑制病毒在宿主中的复制和传播。在这项工作中,我们探究了病毒RNA二级结构对CHIKV DVGs产生的影响。我们使用通过引物延伸和突变分析进行选择性2'-羟基酰化分析(SHAPE-MaP)实验绘制CHIKV基因组的RNA二级结构,该方法将化学标记与下一代测序相结合。我们将推断出的二级结构与CHIKV DVGs的首选缺失位点相关联。我们记录了在二级结构内未配对核苷酸处发生截短导致DVG产生概率增加的情况。然后,我们生成了一个在核苷酸水平具有同义变化以破坏现有RNA二级结构的CHIKV突变体(CHIKV-D2S)。我们表明,与野生型病毒相比,CHIKV-D2S的DVG产生情况有所改变,这与通过SHAPE-MaP获得的RNA二级结构变化相关。因此,我们的工作证明了RNA二级结构在复制过程中会影响CHIKV DVG的产生。
