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Virus-induced senescence is a driver and therapeutic target in COVID-19.

Soyoung LeeYong YuJakob TrimpertFahad A BenthaniMario MairhoferPaulina Richter-PechanskaEmanuel WylerDimitri BelenkiSabine KaltenbrunnerMaria PammerLea KauscheTheresa C FirschingKristina DietertMichael SchotsaertCarles Martínez-RomeroGagandeep SinghSéverine KunzDaniela NiemeyerRiad GhanemHelmut J F SalzerChristian PaarMichael MüllederMelissa UccelliniEdward G MichaelisAmjad KhanAndrea LauMartin SchönleinAnna HabringerJosef TomasitsJulia M AdlerSusanne KimeswengerAchim D GruberWolfram HoetzeneckerHerta SteinkellnerBettina PurfürstReinhard MotzFrancesco Di PierroBernd LamprechtNikolaus OsterriederMarkus LandthalerChristian DrostenAdolfo García-SastreRupert LangerMarkus RalserRoland EilsMaurice ReimannDorothy N Y FanClemens A Schmitt
Published in: Nature (2021)
Derailed cytokine and immune cell networks account for the organ damage and the clinical severity of COVID-19 (refs. 1-4). Here we show that SARS-CoV-2, like other viruses, evokes cellular senescence as a primary stress response in infected cells. Virus-induced senescence (VIS) is indistinguishable from other forms of cellular senescence and is accompanied by a senescence-associated secretory phenotype (SASP), which comprises pro-inflammatory cytokines, extracellular-matrix-active factors and pro-coagulatory mediators5-7. Patients with COVID-19 displayed markers of senescence in their airway mucosa in situ and increased serum levels of SASP factors. In vitro assays demonstrated macrophage activation with SASP-reminiscent secretion, complement lysis and SASP-amplifying secondary senescence of endothelial cells, which mirrored hallmark features of COVID-19 such as macrophage and neutrophil infiltration, endothelial damage and widespread thrombosis in affected lung tissue1,8,9. Moreover, supernatant from VIS cells, including SARS-CoV-2-induced senescence, induced neutrophil extracellular trap formation and activation of platelets and the clotting cascade. Senolytics such as navitoclax and a combination of dasatinib plus quercetin selectively eliminated VIS cells, mitigated COVID-19-reminiscent lung disease and reduced inflammation in SARS-CoV-2-infected hamsters and mice. Our findings mark VIS as a pathogenic trigger of COVID-19-related cytokine escalation and organ damage, and suggest that senolytic targeting of virus-infected cells is a treatment option against SARS-CoV-2 and perhaps other viral infections.
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