Author: Bawazeer, Abdulah OS; Rosli, Sarah; Harpur, Christopher M; Docherty, Callum AH; Mansell, Ashley; Tate, Michelle D
Title: Interleukinâ€1β exacerbates disease and is a potential therapeutic target to reduce pulmonary inflammation during severe influenza A virus infection Cord-id: n7juvl3s Document date: 2021_5_20
ID: n7juvl3s
Snippet: Hyperinflammatory responses including the production of NLRP3â€dependent interleukin (IL)â€1β is a characteristic feature of severe and fatal influenza A virus (IAV) infections. The NLRP3 inflammasome has been shown to play a temporal role during severe IAV immune responses, with early protective and later detrimental responses. However, the specific contribution of ILâ€1β in modulating IAV disease in vivo is currently not well defined. Here, we identified that activation of NLRP3â€depende
Document: Hyperinflammatory responses including the production of NLRP3â€dependent interleukin (IL)â€1β is a characteristic feature of severe and fatal influenza A virus (IAV) infections. The NLRP3 inflammasome has been shown to play a temporal role during severe IAV immune responses, with early protective and later detrimental responses. However, the specific contribution of ILâ€1β in modulating IAV disease in vivo is currently not well defined. Here, we identified that activation of NLRP3â€dependent ILâ€1β responses occurs rapidly following HKx31 H3N2 infection, prior to the onset of severe IAV disease. Mature ILâ€1β was detectable in vivo in both hemopoietic and nonhemopoietic cells. Significantly, therapeutic inhibition of ILâ€1β in the airways with intranasal antiâ€ILâ€1β antibody treatment from day 3 postinfection, corresponding to the onset of clinical signs of disease, significantly prolonged survival and reduced inflammation in the airways. Importantly, early targeting of ILâ€1β from day 1 postinfection also improved survival. Together, these studies specifically define a role for ILâ€1β in contributing to the development of hyperinflammation and disease and indicate that targeting ILâ€1β is a potential therapeutic strategy for severe IAV infections.
Search related documents:
Co phrase search for related documents- acid rig inducible gene and lung inflammation: 1, 2, 3
- acid rig inducible gene and lung tissue: 1, 2
- additional treatment and lung inflammation: 1
- additional treatment and lung response: 1
- additional treatment and lung tissue: 1
Co phrase search for related documents, hyperlinks ordered by date