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The DNA glycosylase NEIL2 plays a vital role in combating SARS-CoV-2 infection.

Tapas K HazraNisha TapryalAnirban ChakrabortyKempaiah Rayavara KempaiahMaki WakamiyaAzharul IslamLang PanJason HsuVivian TatJunki MaruyamaKoa HosokiIbrahim SayedJoshua AlcantaraVanessa CastilloCourtney TindleAltaf H SarkerVictor CardenasGulshan SharmaLaura Crotty AlexanderSanjiv SurGourisankar GhoshSlobodan PaesslerDebashis SahooPradipta GhoshSoumita DasIstvan BoldoghChien-Te Kent Tseng
Published in: Research square (2022)
Compromised DNA repair capacity of individuals could play a critical role in the severity of SARS-CoV-2 infection-induced COVID-19. We therefore analyzed the expression of DNA repair genes in publicly available transcriptomic datasets of COVID-19 patients and found that the level of NEIL2, an oxidized base specific mammalian DNA glycosylase, is particularly low in the lungs of COVID-19 patients displaying severe symptoms. Downregulation of pulmonary NEIL2 in CoV-2-permissive animals and postmortem COVID-19 patients validated these results. To investigate the potential roles of NEIL2 in CoV-2 pathogenesis, we infected Neil2 -null ( Neil2 -/- ) mice with a mouse-adapted CoV-2 strain and found that Neil2 -/- mice suffered more severe viral infection concomitant with increased expression of proinflammatory genes, which resulted in an enhanced mortality rate of 80%, up from 20% for the age matched Neil2 +/+ cohorts. We also found that infected animals accumulated a significant amount of damage in their lung DNA. Surprisingly, recombinant NEIL2 delivered into permissive A549-ACE2 cells significantly decreased viral replication. Toward better understanding the mechanistic basis of how NEIL2 plays such a protective role against CoV-2 infection, we determined that NEIL2 specifically binds to the 5'-UTR of SARS-CoV-2 genomic RNA and blocks protein synthesis. Together, our data suggest that NEIL2 plays a previously unidentified role in regulating CoV-2-induced pathogenesis, via inhibiting viral replication and preventing exacerbated proinflammatory responses, and also via its well-established role of repairing host genome damage.
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