Neutrophil Extracellular Trap Formation (NETosis) Increases with Severity of Disease in COVID-19 Patients

Background: Neutrophils are key players in the immune and aid in the defense against microorganisms. Neutrophil extracellular traps (NETs) are extracellular DNA complexes, which are released during NETosis, a programmed form of cell death. Although NETs are crucial in the fight against infectious agents, an overabundance of neutrophils has been implicated in many inflammatory lung conditions. Our aim is to determine whether an overabundance of NETosis is associated with clinical deterioration of patients with COVID-19. Methods: Circulating polymorphonuclear cells (neutrophils) were isolated from human peripheral blood of 20 human subjects with COVID-19. Neutrophils were seeded in 96-well plates and treated with 0, 2.5 nM, 25 nM, and 250 nM of phorbol 12-myrisate 13-acetate (PMA) or 12 uM nigericin for 2 hours to stimulate NET production via canonical and noncanonical pathways, respectively. Following incubation, wells were treated with micrococcal nuclease, supernatants were collected from each well, and extracellular DNA content to quantify NETosis was detected by fluorescent plate reader. We calculated acute physiology and chronic health evaluation (APACHE-II) scores for every human subject. These were calculated at the same time point at which the neutrophils were collected. They were then compared to the degree of NETosis and absolute neutrophil count (ANC). These were analyzed using a simple linear regression model. We also categorized participants based on APACHE-II scores (APACHE-II 15) and compared them to rates of NETosis using a bar graph. Results: APACHE II is a widely used ICU mortality prediction score that is used to risk-stratify patients. We found that participants with higher APACHE-II scores had higher rates of NETosis, both at 0 nM PMA and when stimulated with nigericin (figure 1a-b). This suggests that higher rates of NETosis correlate with increased disease severity. Additionally, we found a positive correlation between ANC and NETosis (Figure 1c-1d), suggesting that ANC itself is a reliable marker of NETosis and disease severity. Conclusion: NETosis is an important player in immune system defense but has also been implicated in various inflammatory lung conditions. We found that in patients with COVID-19, there was a positive correlation between worsening disease state, measure by APACHE II scores, and increased NETosis. This suggests that over-activation of neutrophils may play a role in disease progression. We also found a positive correlation between NETosis and ANC, indicating that the degree of circulating neutrophils is a reliable marker of the functional state of neutrophils, as well as disease severity.