Characterizing a lethal CAG-ACE2 transgenic mouse model for SARS-CoV-2 infection using Cas9-enhanced nanopore sequencing.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Alexander Smirnov, Artem Nurislamov, Galina Koncevaya, Irina Serova, Evelyn Kabirova, Eduard Chuyko, Ekaterina Maltceva, Maxim Savoskin, Daniil Zadorozhny, Victor A Svyatchenko, Elena V Protopopova, Oleg S Taranov, Stanislav S Legostaev, Valery B Loktev, Oleg Serov, Nariman Battulin
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Abstract

The SARS-CoV-2 pandemic has underscored the necessity for functional transgenic animal models for testing. Mouse lines with overexpression of the human receptor ACE2 serve as the common animal model to study COVID-19 infection. Overexpression of ACE2 under a strong ubiquitous promoter facilitates convenient and sensitive testing of COVID-19 pathology. We performed pronuclear microinjections using a 5 kb CAG-ACE2 linear transgene construct and identified three founder lines with 140, 72, and 73 copies, respectively. Two of these lines were further analyzed for ACE2 expression profiles and sensitivity to SARS-CoV-2 infection. Both lines expressed ACE2 in all organs analyzed. Embryonic fibroblast cell lines derived from transgenic embryos demonstrated severe cytopathic effects following infection, even at low doses of SARS-CoV-2 (0,1-1.0 TCID50). Infected mice from the two lines began to show COVID-19 clinical signs three days post-infection and succumbed between days 4 and 7. Histological examination of lung tissues from terminally ill mice revealed severe pathological alterations. To further characterize the integration site in one of the lines, we applied nanopore sequencing combined with Cas9 enrichment to examine the internal transgene concatemer structure. Oxford Nanopore sequencing (ONT) is becoming the gold standard for transgene insert characterization, but it is relatively inefficient without targeted region enrichment. We digested genomic DNA with Cas9 and gRNA against the ACE2 transgene to create ends suitable for ONT adapter ligation. ONT data analysis revealed that most of the transgene copies were arranged in a head-to-tail configuration, with palindromic junctions being rare. We also detected occasional plasmid backbone fragments within the concatemer, likely co-purified during transgene gel extraction, which is a common occurrence in pronuclear microinjections.

利用Cas9增强型纳米孔测序鉴定SARS-CoV-2感染致死性CAG-ACE2转基因小鼠模型。
SARS-CoV-2 大流行凸显了功能性转基因动物模型测试的必要性。过表达人类受体 ACE2 的小鼠品系是研究 COVID-19 感染的常用动物模型。在一个强大的泛在启动子下过表达 ACE2 可方便灵敏地检测 COVID-19 的病理变化。我们使用 5 kb CAG-ACE2 线性转基因构建物进行了显微核注射,并鉴定出了三个分别具有 140、72 和 73 个拷贝的创始品系。我们对其中两个品系的 ACE2 表达谱和对 SARS-CoV-2 感染的敏感性进行了进一步分析。这两个品系在分析的所有器官中都表达了 ACE2。从转基因胚胎中提取的胚胎成纤维细胞系在感染后表现出严重的细胞病理效应,即使是低剂量的 SARS-CoV-2(0.1-1.0 TCID50)。这两个品系的受感染小鼠在感染后 3 天开始出现 COVID-19 临床症状,第 4 至 7 天死亡。对临终小鼠肺组织的组织学检查发现了严重的病理改变。为了进一步确定其中一个品系整合位点的特征,我们应用纳米孔测序技术结合 Cas9 富集技术来检测内部转基因连接子结构。牛津纳米孔测序(ONT)正在成为转基因插入特征描述的黄金标准,但如果没有靶向区域富集,其效率相对较低。我们用 Cas9 和针对 ACE2 转基因的 gRNA 消化基因组 DNA,以创建适合 ONT 适配器连接的末端。ONT 数据分析显示,大多数转基因拷贝都是头尾排列,很少有回文连接。我们还在连接体中偶尔检测到质粒骨架片段,这些片段很可能是在转基因凝胶提取过程中共同纯化的,这在显微核注射中很常见。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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