鼻病毒 C 在分化的永生化人呼吸道 HBEC3-KT 上皮细胞中的传播。

Propagation of Rhinovirus C in Differentiated Immortalized Human Airway HBEC3-KT Epithelial Cells.

机构信息

Influenza Virus Research Center, National Institute of Infectious Diseases, 4-7-1 Gakuen, Musashimurayama-shi, Tokyo 208-0011, Japan.

Department of Pathology, National Institute of Infectious Diseases, 4-7-1 Gakuen, Musashimurayama-shi, Tokyo 208-0011, Japan.

出版信息

Viruses. 2019 Mar 4;11(3):216. doi: 10.3390/v11030216.

DOI:10.3390/v11030216

PMID:30836639

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6466094/

Abstract

Rhinoviruses (RVs) are classified into three species: RV-A, B, and C. Unlike RV-A and -B, RV-C cannot be propagated using standard cell culture systems. In order to isolate RV-Cs from clinical specimens and gain a better understanding of their biological properties and pathogenesis, we established air⁻liquid-interface (ALI) culture methods using HBEC3-KT and HSAEC1-KT immortalized human airway epithelial cells. HBEC3- and HSAEC1-ALI cultures morphologically resembled pseudostratified epithelia with cilia and goblet cells. Two fully sequenced clinical RV-C isolates, RV-C9 and -C53, were propagated in HBEC3-ALI cultures, and increases in viral RNA ranging from 1.71 log to 7.06 log copies were observed. However, this propagation did not occur in HSAEC1-ALI cultures. Using the HBEC3-ALI culture system, 11 clinical strains of RV-C were isolated from 23 clinical specimens, and of them, nine were passaged and re-propagated. The 11 clinical isolates were classified as RV-C2, -C6, -C9, -C12, -C18, -C23, -C40, and -C53 types according to their VP1 sequences. Our stable HBEC3-ALI culture system is the first cultivable cell model that supports the growth of multiple RV-C virus types from clinical specimens. Thus, the HBEC3-ALI culture system provides a cheap and easy-to-use alternative to existing cell models for isolating and investigating RV-Cs.

摘要

鼻病毒（RV）分为三个种：RV-A、B 和 C。与 RV-A 和 -B 不同，RV-C 不能使用标准细胞培养系统进行繁殖。为了从临床标本中分离 RV-C 并更好地了解其生物学特性和发病机制，我们使用 HBEC3-KT 和 HSAEC1-KT 永生化人呼吸道上皮细胞建立了气液界面（ALI）培养方法。HBEC3 和 HSAEC1-ALI 培养物在形态上类似于具有纤毛和杯状细胞的假复层上皮。两种完全测序的临床 RV-C 分离株 RV-C9 和 -C53 在 HBEC3-ALI 培养物中繁殖，病毒 RNA 增加了 1.71 log 至 7.06 log 拷贝。然而，这种繁殖并没有在 HSAEC1-ALI 培养物中发生。使用 HBEC3-ALI 培养系统，从 23 份临床标本中分离出 11 株临床 RV-C 株，其中 9 株传代并再次繁殖。根据 VP1 序列，11 株临床分离株被分为 RV-C2、-C6、-C9、-C12、-C18、-C23、-C40 和 -C53 型。我们稳定的 HBEC3-ALI 培养系统是第一个可培养细胞模型，支持从临床标本中生长多种 RV-C 病毒类型。因此，HBEC3-ALI 培养系统为分离和研究 RV-C 提供了一种廉价且易于使用的替代现有细胞模型的方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ea3d/6466094/6fce05e08446/viruses-11-00216-g001.jpg

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鼻病毒 C 在分化的永生化人呼吸道 HBEC3-KT 上皮细胞中的传播。

Propagation of Rhinovirus C in Differentiated Immortalized Human Airway HBEC3-KT Epithelial Cells.

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