Necroptosis blockade prevents lung injury in severe influenza.
Avishekh GautamDavid F BoydSameer NikharTing ZhangIoannis SiokasLee-Ann Van de VeldeJessica Ann GaevertVictoria A MeliopoulosBikash ThapaDiego A RodriguezKathy Q CaiChaoran YinDaniel SchnepfJulius BeerCarly DeAntoneoRiley M WilliamsMaria ShubinaBrandi LivingstonDingqiang ZhangMark D AndrakeSeungheon LeeRaghavender BodaAnantha L DuddupudiJeremy Chase CrawfordPeter VogelChristian LochMartin SchwemmleLawrence C FritzStacey Schultz-CherryDouglas R GreenGregory D CunyPaul Glyndwr ThomasAlexei DegterevSiddharth BalachandranPublished in: Nature (2024)
Severe influenza A virus (IAV) infections can result in hyper-inflammation, lung injury and acute respiratory distress syndrome 1-5 (ARDS), for which there are no effective pharmacological therapies. Necroptosis is an attractive entry point for therapeutic intervention in ARDS and related inflammatory conditions because it drives pathogenic lung inflammation and lethality during severe IAV infection 6-8 and can potentially be targeted by receptor interacting protein kinase 3 (RIPK3) inhibitors. Here we show that a newly developed RIPK3 inhibitor, UH15-38, potently and selectively blocked IAV-triggered necroptosis in alveolar epithelial cells in vivo. UH15-38 ameliorated lung inflammation and prevented mortality following infection with laboratory-adapted and pandemic strains of IAV, without compromising antiviral adaptive immune responses or impeding viral clearance. UH15-38 displayed robust therapeutic efficacy even when administered late in the course of infection, suggesting that RIPK3 blockade may provide clinical benefit in patients with IAV-driven ARDS and other hyper-inflammatory pathologies.
Keyphrases
- acute respiratory distress syndrome
- oxidative stress
- extracorporeal membrane oxygenation
- mechanical ventilation
- immune response
- protein kinase
- sars cov
- early onset
- randomized controlled trial
- escherichia coli
- coronavirus disease
- drug induced
- cardiovascular events
- type diabetes
- coronary artery disease
- toll like receptor
- mouse model
- risk factors