MxA mRNA quantification and disability progression in interferon beta-treated multiple sclerosis patients.

Federico Serana,Leandro Provinciali,Luisa Imberti,Vittorio Martinelli,Maria Rosa Rottoli,Ruggero Capra,Claudio Gasperini,Sergio Stecchi,Angelo Ghezzi,Giancarlo Comi,Cinzia Cordioli,Maria Pia Amato,Michele Vecchio,Mauro Zaffaroni,Stefano Sotgiu

doi:10.1371/journal.pone.0094794

Abstract

Even though anti-interferon beta (IFNβ) antibodies are the main determinants of IFNβ bioactivity loss and Myxovirus-resistance protein A (MxA) is the most established marker of IFNβ biological activity in IFNβ-treated multiple sclerosis patients, their usefulness in the routine clinical practice is still debated. Therefore, 118 multiple sclerosis patients naïve for treatment were enrolled for a 3-year longitudinal observational study mimicking the conditions of a real-world setting. In order to evaluate the kinetics of bioactivity loss in blood samples obtained every 6 months after therapy initiation, MxA and interferon receptor isoform/subunit mRNA were quantified by real-time PCR, anti-IFNβ binding antibodies were detected by radioimmunoprecipitation, and neutralizing antibodies by cytopathic effect inhibition assay. Clinical measures of disease activity and disability progression were also obtained at all time points. We found that, at the individual-patient level, the response to IFNβ therapy was extremely heterogeneous, including patients with stable or transitory, early or late loss of IFNβ bioactivity, and patients with samples lacking MxA mRNA induction in spite of absence of antibodies. No interferon receptor isoform alterations that could explain these findings were found. At the group level, none of these biological features correlated with the measures of clinical disease activity or progression. However, when MxA mRNA was evaluated not at the single time point as a dichotomic marker (induced vs. non-induced), but as the mean of its values measured over the 6-to-24 month period, the increasing average MxA predicted a decreasing risk of short-term disability progression, independently from the presence of relapses. Therefore, a more bioactive treatment, even if unable to suppress relapses, reduces their severity by an amount that is proportional to MxA levels. Together with its feasibility in the routine laboratory setting, these data warrant the quantification of MxA mRNA as a primary tool for a routine monitoring of IFNβ therapy.

Highlights

Interferon beta (IFNb) is widely used as first-line treatment for patients with relapsing remitting multiple sclerosis (MS)
The only significant differences were observed at T6, when the Myxovirus-resistance protein A (MxA) levels increased in patients receiving IFNb1a 44 mg s.c., and at T18, when MxA decreased in those receiving IFNb-1b in comparison to the other two treatment groups
After therapy initiation, MxA mRNA was stably induced to a similar extent by IFNb-1a i.m., IFNb-1a 44 mg s.c., and IFNb-1b preparations

Summary

Introduction

Interferon beta (IFNb) is widely used as first-line treatment for patients with relapsing remitting multiple sclerosis (MS). In the field of MRI, evidence has accumulated to show that the development of new lesions within 6–24 months after initiating IFNb predicts an unfavourable response to this treatment and can help to identify patients with a poor prognosis [5,6]. Among the biomarkers, which were analyzed at the protein and/or mRNA level, so far only neutralizing antibody (NAb) titers and IFNb biological activity loss, measured by Myxovirus-resistance protein A (MxA) mRNA quantification, have proven clinically reproducible to some degree [5]. Secondary objectives were: to evaluate whether the expression of the mRNA for the IFNb receptor (IFNAR) subunits and isoforms had a relevant impact on bioactivity loss; and to correlate the markers of IFNb bioactivity with the measures of clinical disease activity, to determine whether biomarkers can predict IFNb therapy effectiveness

Methods

Results

Conclusion