病毒学
单克隆抗体
抗病毒药物
效价
病毒
病毒复制
抗病毒治疗
肺病毒科
生物
抗体
病毒载量
病菌
抗病毒治疗
呼吸道
呼吸系统
呼吸道感染
肺
药品
免疫系统
动物模型
免疫学
医学
中和抗体
病毒性疾病
副粘病毒科
免疫疗法
抗体反应
维罗细胞
呼吸道疾病
药物开发
作者
Jinwei Yuan,Duo Xu,Xiaohong Liao,Chengxing Zhou,Qiong Zhang,Hui Liao,Minglei Liu,Zhoulang Wang,Jing Dai,Rui Cao,Qiuru Li,Hui Cai,Rong Zhou,Xingui Tian
摘要
The respiratory syncytial virus (RSV) is a predominant pathogen that causes lower respiratory tract infections and is widespread among infants and the elderly. Antibodies and antiviral drugs are effective treatment strategies for RSV, but their efficacy varies among different animal models. Here, we present a mouse model constructed using HEp-2 cell line-derived xenograft (HEp2-CDX) technology. The HEp2-CDX mouse model sustained high viral loads following both intratumoral and intravenous inoculation with RSV. The average peak titers rapidly reached 1 × 107 copies/g in lung tissues and 6 × 109 copies/g in the tumor tissues over a period up to 5 days. Furthermore, the addition of a clinical monoclonal antibody (nirsevimab) and an antiviral drug (ziresovir) showed strong antiviral activity within this animal model. These findings suggest that HEp2-CDX mice, which enable stable RSV infection and replication, serve as useful models for evaluating antiviral therapeutics.
科研通智能强力驱动
Strongly Powered by AbleSci AI