Department of Virology III, National Institute of Infectious Diseases, Tokyo, Japan.
Research Center for Biosafety, Laboratory Animal, and Pathogen Bank, National Institute of Infectious Diseases, Tokyo, Japan.
Microbiol Spectr. 2024 Sep 3;12(9):e0116424. doi: 10.1128/spectrum.01164-24. Epub 2024 Jul 30.
Human parainfluenza virus (HPIV) causes respiratory infections, which are exacerbated in children and older people. Correct evaluation of viral characteristics is essential for the study of countermeasures. However, adaptation of viruses to cultured cells during isolation or propagation might select laboratory passage-associated mutations that modify the characteristics of the virus. It was previously reported that adaptation of HPIV3, but not other HPIVs, was avoided in human airway epithelia. To examine the influence of laboratory passage on the genomes of HPIV1-HPIV4, we evaluated the occurrence of mutations after passage in primary human bronchial/tracheal epithelial cell air-liquid interface (HBTEC-ALI) culture and conventional cultured cells (Vero cells expressing the transmembrane protease, serine 2, and normal Vero cells). The occurrence of mutations was significantly lower in HBTEC-ALI than in conventional culture. In HBTEC-ALI culture, most of the mutations were silent or remained at low variant frequency, resulting in less impact on the viral consensus sequence. In contrast, passage in conventional culture induced or selected genetic mutations at high frequency with passage-associated unique substitutions. High mutagenesis of hemagglutinin-neuraminidase was commonly observed in all four HPIVs, and mutations even occurred in a single passage. In addition, in HPIV1 and HPIV2, mutations in the large protein were more frequent. These results indicate that passage in HBTEC-ALI culture is more suitable than conventional culture for maintaining the original characteristics of clinical isolates in all four HPIVs, which can help with the understanding of viral pathogenesis.
Adaptation of viruses to cultured cells can increase the risk of misinterpretation in virological characterization of clinical isolates. In human parainfluenza virus (HPIV) 3, it has been reported that the human airway epithelial and lung organoid models are preferable for the study of viral characteristics of clinical strains without mutations. Therefore, we analyzed clinical isolates of all four HPIVs for the occurrence of mutations after five laboratory passages in human bronchial/tracheal epithelial cell air-liquid interface (HBTEC-ALI) or conventional culture. We found a high risk of hemagglutinin-neuraminidase mutagenesis in all four HPIVs in conventional cultured cells. In addition, in HPIV1 and HPIV2, mutations of the large protein were also more frequent in conventional cultured cells than in HBTEC-ALI culture. HBTEC-ALI culture was useful for maintaining the original sequence and characteristics of clinical isolates in all four HPIVs. The present study contributes to the understanding of HPIV pathogenesis and antiviral strategies.
病毒在培养细胞中的适应性选择可能会导致实验室传代相关突变,从而改变病毒的特征。此前有报道称,人类副流感病毒 3(HPIV3)在人呼吸道上皮细胞中不易适应,而其他 HPIV 则易适应。为了研究实验室传代对 HPIV1-HPIV4 基因组的影响,我们评估了在原代人支气管/气管上皮细胞气液界面(HBTEC-ALI)培养和常规培养细胞(表达跨膜蛋白酶、丝氨酸 2 的 Vero 细胞和正常 Vero 细胞)中传代后突变的发生情况。在 HBTEC-ALI 培养中,突变的发生明显低于常规培养。在 HBTEC-ALI 培养中,大多数突变是沉默的或保持低变异频率,因此对病毒的共识序列影响较小。相比之下,在常规培养中传代会以高频率诱导或选择遗传突变,并伴有传代相关的独特取代。所有 4 种 HPIV 中均可见血凝素神经氨酸酶的高诱变,甚至在单个传代中也会发生突变。此外,在 HPIV1 和 HPIV2 中,大蛋白中的突变更为常见。这些结果表明,与常规培养相比,HBTEC-ALI 培养更适合维持所有 4 种 HPIV 临床分离株的原始特征,有助于了解病毒发病机制。
人类副流感病毒(HPIV)会引起呼吸道感染,在儿童和老年人中更为严重。正确评估病毒特征对于研究对策至关重要。然而,病毒在分离或繁殖过程中适应培养细胞可能会选择实验室传代相关的突变,从而改变病毒的特征。此前有报道称,HPIV3 在人呼吸道上皮细胞中不易适应,而其他 HPIV 则易适应。为了研究实验室传代对 HPIV1-HPIV4 基因组的影响,我们评估了在原代人支气管/气管上皮细胞气液界面(HBTEC-ALI)培养和常规培养细胞(表达跨膜蛋白酶、丝氨酸 2 的 Vero 细胞和正常 Vero 细胞)中传代后突变的发生情况。在 HBTEC-ALI 培养中,突变的发生明显低于常规培养。在 HBTEC-ALI 培养中,大多数突变是沉默的或保持低变异频率,因此对病毒的共识序列影响较小。相比之下,在常规培养中传代会以高频率诱导或选择遗传突变,并伴有传代相关的独特取代。所有 4 种 HPIV 中均可见血凝素神经氨酸酶的高诱变,甚至在单个传代中也会发生突变。此外,在 HPIV1 和 HPIV2 中,大蛋白中的突变更为常见。这些结果表明,与常规培养相比,HBTEC-ALI 培养更适合维持所有 4 种 HPIV 临床分离株的原始特征,有助于了解病毒发病机制。
