Induction of interferon response by high viral loads at early stage infection may protect against severe outcomes in COVID-19 patients.
Eric C RouchkaJulia H CharikerBrian AlejandroRobert S AdcockRicha SinghalJulio RamirezKenneth E PalmerAmanda B LasnikRuth CarricoForest W ArnoldStephen FurmanekMei ZhangLeslie A WolfSabine WaigelWolfgang ZachariasJose BordonDong-Hoon ChungPublished in: Scientific reports (2021)
Key elements for viral pathogenesis include viral strains, viral load, co-infection, and host responses. Several studies analyzing these factors in the function of disease severity of have been published; however, no studies have shown how all of these factors interplay within a defined cohort. To address this important question, we sought to understand how these four key components interplay in a cohort of COVID-19 patients. We determined the viral loads and gene expression using high throughput sequencing and various virological methods. We found that viral loads in the upper respiratory tract in COVID-19 patients at an early phase of infection vary widely. While the majority of nasopharyngeal (NP) samples have a viral load lower than the limit of detection of infectious viruses, there are samples with an extraordinary amount of SARS-CoV-2 RNA and a high viral titer. No specific viral factors were identified that are associated with high viral loads. Host gene expression analysis showed that viral loads were strongly correlated with cellular antiviral responses. Interestingly, however, COVID-19 patients who experience mild symptoms have a higher viral load than those with severe complications, indicating that naso-pharyngeal viral load may not be a key factor of the clinical outcomes of COVID-19. The metagenomics analysis revealed that the microflora in the upper respiratory tract of COVID-19 patients with high viral loads were dominated by SARS-CoV-2, with a high degree of dysbiosis. Finally, we found a strong inverse correlation between upregulation of interferon responses and disease severity. Overall our study suggests that a high viral load in the upper respiratory tract may not be a critical factor for severe symptoms; rather, dampened antiviral responses may be a critical factor for a severe outcome from the infection.
Keyphrases
- sars cov
- respiratory tract
- respiratory syndrome coronavirus
- early stage
- gene expression
- coronavirus disease
- early onset
- systematic review
- dna methylation
- type diabetes
- skeletal muscle
- dendritic cells
- poor prognosis
- randomized controlled trial
- signaling pathway
- adipose tissue
- depressive symptoms
- hiv infected
- quantum dots
- genome wide
- lymph node
- antiretroviral therapy
- genome wide identification
- weight loss