In Systemic Mastocytosis, What’s the Impact of Type I Interferon Autoantibodies?
<ѻý class="dek">—Investigators from the National Institutes of Health recently tackled the challenge of determining whether autoantibodies to type I interferon detected in the serum of patients with systemic mastocytosis are markers of disease severity.A team of researchers from the National Institutes of Health, in Bethesda, Maryland, recently investigated the presence of type I interferon autoantibodies in the serum of patients with systemic mastocytosis, and, if found, the extent to which these autoantibodies correlate with biomarkers of disease severity.1
“On the basis of . . . findings indicating that type I interferons influence mast cell homeostasis, we hypothesized that autoantibodies to type I interferons may play a role in disease activity,” the authors noted in the Journal of Allergy and Clinical Immunology: Global.1
Study design and patient characteristics
This prospective cohort study included serum samples drawn from 89 adults with systemic mastocytosis (median age 56 years; 57.3% female; 94.4% White).1 Of these, 69 patients were classified as having indolent systemic mastocytosis, 16 with smoldering disease, and four with aggressive disease; 84 patients had concurrent maculopapular cutaneous mastocytosis.
The median serum tryptase level, which is a mast cell burden marker, was 80.7 ng/mL (interquartile range 42.2 to 149.0 ng/mL). Of the 84 patients who had any form of KIT D816V analysis performed, 76 (90.5%) were classified as positive. Of the 60 patients with peripheral blood evaluated for D816V burden using allele-specific quantitative polymerase chain reaction (PCR), 49 (81.7%) were classified as positive.
The results of autoantibody testing
The threshold for interferon (IFN) alpha (IFN-α) autoantibody functional testing was not met for any patients. Samples from 13 and three patients met the threshold for IFN-β and IFN-ω, respectively; samples from two patients met the threshold for both.
Patients with serum samples that met the threshold for any type I interferon autoantibodies were analyzed for neutralizing effects. Less than 20% signaling activity was considered blocking; 20% to 65%, partially blocking; and greater than 65%, not blocking. When stimulated with 10 ng/mL of IFN-β, no patient serum samples blocked or partially blocked STAT1 signaling activity, with the percentage of signaling ranging between 71% and 125% of the median value of healthy controls. Similar results were observed for IFN-ω, with the percentage of signaling ranging between 103% and 136%.
No correlation was observed between the concentration of type I interferon autoantibodies and serum tryptase levels (IFN-α, P=.33 and R2=.01; IFN-β, P=.10 and R2=.03; IFN-ω, P=.20 and R2=.02).
“Thus, according to this assay, which is the most relevant analysis, there was no evidence of a functional consequence,” the authors wrote.1
Sorting through various correlations
A slightly positive correlation between STAT1 signaling activity and tryptase value was observed following testing for IFN-β autoantibody signal neutralization; however, the small R2 value is suggestive of limited clinical significance. No correlation was found between STAT1 signaling activity and tryptase value following testing for IFN-ω autoantibody signal neutralization.
This same finding—no correlation—held for KIT D816V mutation values and type I interferon autoantibody levels, as well as for KIT D816V mutation values and STAT1 activity. Comparison of type I interferon autoantibody levels in those positive for the KIT D816V mutation and those negative for it revealed no significant differences (IFN-α, P=.50; IFN-β, P=.35; IFN-ω, P=.48). Moreover, no significant differences in type I interferon autoantibody levels were found based on severity of systemic mastocytosis, age, or medication use.
A history of mast cell activation (MCA)-related symptoms, including anaphylaxis, chronic gastrointestinal issues, and consistent flushing episodes, was reported in 40.5%, 92.1%, and 76.4% of patients, respectively. No difference in the proportion of patients with and without a history of MCA-related symptoms was observed among those positive for IFN-β autoantibodies.
“Thus, MCA-related symptoms were not associated with elevations in concentrations of autoantibodies to IFN-β,” the authors noted.1
Breaking new ground
The authors believe that their study is the first to report measurement of serum type I interferon autoantibodies and their correlation with disease manifestation or illness severity in patients with systemic mastocytosis. While type I interferon autoantibodies were detected in 14.6% of patients, there was no observation of type I interferon signaling inhibition via autoantibodies.
“These findings support the conclusion that autoantibodies to type I interferon do not have a significant role in the pathogenesis or manifestations of systemic mastocytosis,” the authors concluded.1
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