Published in:
Open Access
16-04-2023 | Long-COVID Syndrome | Correspondence
Unique immune and inflammatory cytokine profiles may define long COVID syndrome
Authors:
Lao-Tzu Allan-Blitz, Omid Akbari, Noah Kojima, Edwyn Saavedra, Prithivi Chellamuthu, Nicholas Denny, Melanie A. MacMullan, Victoria Hess, Maria Shacreaw, Matthew Brobeck, Frederick Turner, Vladimir I. Slepnev, Albina Ibrayeva, Jeffrey D. Klausner
Published in:
Clinical and Experimental Medicine
|
Issue 6/2023
Login to get access
Abstract
Purpose
Long COVID is estimated to occur in 5–10% of individuals after acute SARS-CoV-2 infection. However, the pathophysiology driving the disease process is poorly understood.
Methods
We evaluated urine and plasma inflammatory and immune cytokine profiles in 33 individuals with long COVID compared to 33 who were asymptomatic and recovered, and 34 without prior infection.
Results
Mean urinary leukotriene E4 was significantly elevated among individuals with long COVID compared to asymptomatic and recovered individuals (mean difference 774.2 pg/mL; SD 335.7) and individuals without prior SARS-CoV-2 infection (mean difference 503.1 pg/ml; SD 467.7). Plasma chemokine ligand 6 levels were elevated among individuals with long COVID compared to individuals with no prior SARS-CoV-2 infection (mean difference 0.59 units; SD 0.42). We found no significant difference in angiotensin-converting enzyme 2 antibody levels. Plasma tumor necrosis factor receptor-associated factor 2 (TRAF2) levels were reduced among individuals with long COVID compared to individuals who were asymptomatic and recovered (mean difference = 0.6 units, SD 0.46). Similarly, the mean level of Sarcoma Homology 2-B adapter protein 3 was 3.3 units (SD 1.24) among individuals with long COVID, lower than 4.2 units (SD 1.1) among individuals with recovered, asymptomatic COVID.
Conclusion
Our findings suggest that further studies should be conducted to evaluate the role of leukotriene E4 as a potential biomarker for a diagnostic test. Furthermore, based on reductions in TRAF2, long COVID may be driven in part by impaired TRAF2-dependent immune-mediated inflammation and potentially immune exhaustion.