Elevated neuroinflammation, autoimmunity, and altered IgG glycosylation profile in the cerebral spinal fluid of severe COVID-19 patients.

Objective: A spectrum of neurologic complications associated with COVID-19 are well documented. While neuroinflammation in the brain of COVID-19 patients likely contributes to these complications, the mechanisms of neuroinflammation and correlates of neurologic complications remain elusive, especially since the etiologic pathogen of COVID-19, SARS-CoV-2, minimally invades the CNS. This study aimed to evaluate markers of neuroinflammation, IgG glycosylation patterns indicative of pro- or anti-inflammatory state, and prevalence of brain auto-reactive antibodies in the CSF of COVID-19 patients and their relationship to brain neuropathology.

Methods: We evaluated the CSF of 11 deceased unvaccinated COVID-19 donors and 13 matched non-COVID-19 controls. Markers of neuroinflammation, IgG glycosylation patterns, and brain auto-reactive antibodies were assessed, along with their correlation to brain neuropathology. Statistical analyses were performed to compare groups and assess relationships between variables, using non-parametric tests and bootstrap analysis.

Results: COVID-19 CSF showed higher levels of neopterin and ANNA-1, markers of neuroinflammation and autoimmunity, respectively, and lower IFN response compared to non-COVID-19 donors. In brain regions of high microglial activation, IL4 and RANTES were significantly increased. SARS-CoV-2 was undetectable in the CSF and brain of COVID-19 donors, yet anti-SARS-CoV-2 CSF antibodies were detected. Fucosylated IgG were associated with Spike IgG, CSF protein, and soluble CD14, whereas afucosylated bisecting IgG were inversely correlated with Spike IgG. Sialic acid containing IgG were positively correlated with IL1β and TNFα. These associations were not found in non-COVID-19 donors. Inflammatory agalactosylated fucosylated IgG (G0F) were associated with infiltrating CD4 + T cells in the brains of COVID-19 donors. COVID-19 donor CSF displayed higher levels of auto-reactive antibodies to human brain antigens compared to non-COVID-19 donors and donors with positive autoantibodies showed higher levels of neopterin.

Conclusions: These data describe increased neuroinflammation and autoreactive antibody markers in the CSF of COVID-19 donors and suggest that IgG glycosylation and autoimmunity may contribute to COVID-19 pathology, highlighting potential mechanisms underlying the neurologic complications associated with COVID-19.