Investigation of Possible Link between Interferon-α and Lyme Disease

Armin Alaedini; Mary K. Crow; Brian A. Fallon; Elzbieta Jacek; Gary P. Wormser

doi:10.3201/eid2911.230839

On This Page

Letter

Cite This Article

Downloads

Article

RIS [TXT - 2 KB]

Article Metrics

Metric Details

More articles on Lyme Disease

Cite This Article

To the Editor: We were intrigued by Hernandez et al.’s recent important study linking persistent subjective symptoms after Lyme neuroborreliosis in Europe with increased interferon (IFN) α levels in blood (1). Their findings align with our earlier study in the United States, which showed an association between persistent objective neurocognitive deficits, despite antibiotic treatment for Lyme disease, and elevated blood IFN-α activity (2). In our study, we decided to evaluate the potential role of IFN-α in this particular group of patients with posttreatment Lyme disease symptoms (PTLDS), based on the extensive animal and human data that connect IFN-α with adverse cognitive, neuropsychiatric, and behavioral manifestations.

A noteworthy difference between the 2 studies is the method of IFN-α detection. Hernandez et al. (1) relied on a bead-based immunoassay to directly measure IFN-α levels, whereas we used a functional cell-based assay and quantitative real-time PCR to assess IFN-α activity (2,3). Direct quantitation of IFN-α can be challenging, as highlighted by the fact that concentrations for some study participants in the Hernandez et al. article appeared to fall below the limit of quantitation, thus complicating the analysis and interpretation of the data. However, newer ultrasensitive assays recently made available might be useful in detecting even very low concentrations of IFN-α in controls and in patients with PTLDS (4).

The observations linking PTLDS with increased IFN-α strengthen the growing evidence for the involvement of innate and adaptive immune-mediated pathways in post-Lyme disease sequela. Future studies can use newer ultrasensitive assays for IFN-α detection and be extended to include a more diverse population of persons with PTLDS, including those without a history of neuroborreliosis and those without cognitive dysfunction (5). The findings might have important implications for establishing biomarkers and even for potentially finding effective therapies for PTLDS, with possible relevance to other post-infection conditions.

Top

Acknowledgment

A.A. reports participation on advisory boards for the National Institutes of Health, Global Lyme Alliance, Roche, Everlywell, and Veravas; he is founder and director of Gut-Immune Research Group. M.K.C. reports serving as a consultant for AMPEL BioSolutions, AstraZeneca, Bristol Myers Squibb, GlaxoSmithKline, and Lilly; she holds a research grant from Gilead Sciences. G.P.W. reports receiving research grants from Biopeptides, Corp., and Pfizer, Inc. He has been an expert witness in malpractice cases involving Lyme disease and babesiosis and is an unpaid board member of the nonprofit American Lyme Disease Foundation. Other authors report no disclosures.

Top

Armin Alaedini

, Mary K. Crow, Brian A. Fallon, Elzbieta Jacek, and Gary P. Wormser

Author affiliations: Columbia University, New York, New York, USA (A. Alaedini, B.A. Fallon); New York Medical College, Valhalla, New York, USA (A. Alaedini, G.P. Wormser); Hospital for Special Surgery, New York (M.K. Crow); The New York State Psychiatric Institute, New York (B.A. Fallon); Lehigh Valley Health Network, Allentown, Pennsylvania, USA (E. Jacek)

Top

References

Hernández SA, Ogrinc K, Korva M, Kastrin A, Bogovič P, Rojko T, et al. Association of persistent symptoms after Lyme neuroborreliosis and increased levels of interferon-α in blood. Emerg Infect Dis. 2023;29:1091–101. DOIPubMedGoogle Scholar
Jacek E, Fallon BA, Chandra A, Crow MK, Wormser GP, Alaedini A. Increased IFNα activity and differential antibody response in patients with a history of Lyme disease and persistent cognitive deficits. J Neuroimmunol. 2013;255:85–91. DOIPubMedGoogle Scholar
Hua J, Kirou K, Lee C, Crow MK. Functional assay of type I interferon in systemic lupus erythematosus plasma and association with anti-RNA binding protein autoantibodies. Arthritis Rheum. 2006;54:1906–16. DOIPubMedGoogle Scholar
Rodero MP, Decalf J, Bondet V, Hunt D, Rice GI, Werneke S, et al. Detection of interferon alpha protein reveals differential levels and cellular sources in disease. J Exp Med. 2017;214:1547–55. DOIPubMedGoogle Scholar
Kaplan RF, Trevino RP, Johnson GM, Levy L, Dornbush R, Hu LT, et al. Cognitive function in post-treatment Lyme disease: do additional antibiotics help? Neurology. 2003;60:1916–22. DOIPubMedGoogle Scholar

Top

Cite This Article

DOI: 10.3201/eid2911.230839

Original Publication Date: October 16, 2023

EID	Alaedini A, Crow MK, Fallon BA, Jacek E, Wormser GP. Investigation of Possible Link between Interferon-α and Lyme Disease. Emerg Infect Dis. 2023;29(11):2409. https://doi.org/10.3201/eid2911.230839
AMA	Alaedini A, Crow MK, Fallon BA, et al. Investigation of Possible Link between Interferon-α and Lyme Disease. Emerging Infectious Diseases. 2023;29(11):2409. doi:10.3201/eid2911.230839.
APA	Alaedini, A., Crow, M. K., Fallon, B. A., Jacek, E., & Wormser, G. P. (2023). Investigation of Possible Link between Interferon-α and Lyme Disease. Emerging Infectious Diseases, 29(11), 2409. https://doi.org/10.3201/eid2911.230839.

EID Search Options
Advanced Article Search – Search articles by author and/or keyword.
Articles by Country Search – Search articles by the topic country.
Article Type Search – Search articles by article type and issue.

Volume 29, Number 11—November 2023

Letter