OAS1 and OAS3 genetic variants enhance inflammatory responses to SARS-CoV-2

Abstract

Recessive deficiency in 2′ ,5′ -oligoadenylate synthetase (OAS) or RNase L can cause systemic inflammation in children with SARS-CoV-2 infection, but its role in adult respiratory disease is unclear. We analyzed rare OAS1/OAS3 variants and the common OAS1 rs10774671 polymorphism in 342 COVID-19 patients, assessing enzymatic activity, RNase L activation, viral replication, and inflammation in cell systems and Oas3-deficient mice. Rare heterozygous variants showed impaired RNase L activation but were not enriched in pneumonia cases. In contrast, the rs10774671 A/A genotype (OAS1-p42 isoform) was associated with severe disease (OR = 2.28; 95% CI = 1.13–4.58; p = 0.0107) and reduced viral control despite intact RNase L activation. OAS3 and OAS1-p46 isoform limited viral replication and inflammatory responses, whereas Oas3- deficient mice showed increased cytokines. These findings suggest that common OAS1 variation influences COVID-19 severity, while rare OAS variants may affect inflammation regulation rather than respiratory pathology.