毛细支气管炎
病毒
医学
病毒学
肺炎
呼吸系统
肺
免疫学
钙通道
病菌
呼吸道感染
下呼吸道感染
呼吸道
氯离子通道
钙
生物
内科学
细胞生物学
作者
Hayley Pearson,Eleanor J. A. A. Todd,Mareike Ahrends,Samantha Hover,Adrian Whitehouse,Martin Stacey,Jonathan D. Lippiat,Ludwig Wilkens,Hans‐Gerd Fieguth,Olga Danov,Christina Hesse,John N. Barr,Jamel Mankouri
出处
期刊:Thorax
[BMJ]
日期:2020-10-27
卷期号:76 (1): 64-72
被引量:25
标识
DOI:10.1136/thoraxjnl-2020-215171
摘要
Introduction Human respiratory syncytial virus (HRSV) is a common cause of respiratory tract infections (RTIs) globally and is one of the most fatal infectious diseases for infants in developing countries. Of those infected, 25%–40% aged ≤1 year develop severe lower RTIs leading to pneumonia and bronchiolitis, with ~10% requiring hospitalisation. Evidence also suggests that HRSV infection early in life is a major cause of adult asthma. There is no HRSV vaccine, and the only clinically approved treatment is immunoprophylaxis that is expensive and only moderately effective. New anti-HRSV therapeutic strategies are therefore urgently required. Methods It is now established that viruses require cellular ion channel functionality to infect cells. Here, we infected human lung epithelial cell lines and ex vivo human lung slices with HRSV in the presence of a defined panel of chloride (Cl − ) channel modulators to investigate their role during the HRSV life-cycle. Results We demonstrate the requirement for TMEM16A, a calcium-activated Cl − channel, for HRSV infection. Time-of-addition assays revealed that the TMEM16A blockers inhibit HRSV at a postentry stage of the virus life-cycle, showing activity as a postexposure prophylaxis. Another important negative-sense RNA respiratory pathogen influenza virus was also inhibited by the TMEM16A-specific inhibitor T16Ainh-A01. Discussion These findings reveal TMEM16A as an exciting target for future host-directed antiviral therapeutics.
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