Institute of Virologygrid.426602.4, Justus-Liebig-Universität Gießen, Giessen, Germany.
Institute of Virologygrid.426602.4, Department for Pathobiology, University of Veterinary Medicine, Vienna, Austria.
J Virol. 2022 Aug 10;96(15):e0198021. doi: 10.1128/jvi.01980-21. Epub 2022 Jul 19.
Atypical porcine pestiviruses (APPV; ) are a recently discovered, very divergent species of the genus within the family . The presence of APPV in piglet-producing farms is associated with the occurrence of so-called "shaking piglets," suffering from mild to severe congenital tremor type A-II. Previous studies showed that the cellular protein DNAJC14 is an essential cofactor of the NS2 autoprotease of all classical pestiviruses. Consequently, genetically engineered DNAJC14 knockout cell lines were resistant to all tested noncytopathogenic (non-cp) pestiviruses. Surprisingly, we found that the non-cp APPV can replicate in these cells in the absence of DNAJC14, suggesting a divergent mechanism of polyprotein processing. A complete laboratory system for the study of APPV was established to learn more about the replication of this unusual virus. The inactivation of the APPV NS2 autoprotease using reverse genetics resulted in nonreplicative genomes. To further investigate whether a regulation of the NS2-3 cleavage is also existing in APPV, we constructed synthetic viral genomes with deletions and duplications leading to the NS2 independent release of mature NS3. As observed with other pestiviruses, the increase of mature NS3 resulted in elevated viral RNA replication levels and increased protein expression. Our data suggest that APPV exhibit a divergent mechanism for the regulation of the NS2 autoprotease activity most likely utilizing a different cellular protein for the adjustment of replication levels. DNAJC14 is an essential cofactor of the pestiviral NS2 autoprotease, limiting replication to tolerable levels as a prerequisite for the noncytopathogenic biotype of pestiviruses. Surprisingly, we found that the atypical porcine pestivirus (APPV) is able to replicate in the absence of DNAJC14. We further investigated the NS2-3 processing of APPV using a molecular clone, monoclonal antibodies, and DNAJC14 knockout cells. We identified two potential active site residues of the NS2 autoprotease and could demonstrate that the release of NS3 by the NS2 autoprotease is essential for APPV replication. Defective interfering genomes and viral genomes with duplicated NS3 sequences that produce mature NS3 independent of the NS2 autoprotease activity showed increased replication and antigen expression. It seems likely that an alternative cellular cofactor controls NS2-3 cleavage and thus replication of APPV. The replication-optimized synthetic APPV genomes might be suitable live vaccine candidates, whose establishment and testing warrant further research.
非典型猪瘟病毒(APPV;)是最近发现的一种非常分化的属内病毒种,属于瘟病毒科。APPV 在仔猪生产农场的存在与所谓的“颤抖仔猪”的发生有关,这些仔猪患有轻度至重度先天性震颤 A-II 型。先前的研究表明,细胞蛋白 DNAJC14 是所有经典瘟病毒 NS2 自体蛋白酶的必需辅助因子。因此,经过基因工程改造的 DNAJC14 敲除细胞系对所有测试的非细胞病变(非-cp)瘟病毒均具有抗性。令人惊讶的是,我们发现非-cp APPV 可以在没有 DNAJC14 的情况下在这些细胞中复制,这表明多蛋白加工的机制存在差异。建立了一个完整的 APPV 研究实验室系统,以更深入地了解这种异常病毒的复制。使用反向遗传学使 APPV 的 NS2 自体蛋白酶失活会导致非复制基因组。为了进一步研究 APPV 的 NS2-3 切割是否也受到调节,我们构建了具有缺失和重复的合成病毒基因组,导致 NS2 独立释放成熟的 NS3。与其他瘟病毒一样,成熟 NS3 的增加导致病毒 RNA 复制水平升高和蛋白表达增加。我们的数据表明,APPV 表现出一种调节 NS2 自体蛋白酶活性的不同机制,可能利用一种不同的细胞蛋白来调节复制水平。DNAJC14 是瘟病毒 NS2 自体蛋白酶的必需辅助因子,将复制限制在可容忍的水平,作为瘟病毒非细胞病变生物型的前提。令人惊讶的是,我们发现非典型猪瘟病毒(APPV)能够在没有 DNAJC14 的情况下复制。我们进一步使用分子克隆、单克隆抗体和 DNAJC14 敲除细胞研究了 APPV 的 NS2-3 加工。我们鉴定了 NS2 自体蛋白酶的两个潜在活性位点残基,并能够证明 NS2 自体蛋白酶介导的 NS3 的释放对于 APPV 复制是必需的。缺陷干扰基因组和具有重复 NS3 序列的病毒基因组,产生独立于 NS2 自体蛋白酶活性的成熟 NS3,显示出增加的复制和抗原表达。似乎一种替代的细胞辅助因子控制着 NS2-3 切割,从而控制着 APPV 的复制。复制优化的合成 APPV 基因组可能是合适的活疫苗候选物,其建立和测试值得进一步研究。
