Journal of Neuroinflammation (May 2011)

The effects of high dose interferon-β1a on plasma microparticles: Correlation with MRI parameters

  • Ganta Chaitanya V,
  • McGee-Brown Jeanie,
  • Chalamidas Kathrine,
  • Harris Meghan K,
  • Gonzalez-Toledo Eduardo,
  • Eaton Erin,
  • Lowery-Nordberg Mary,
  • Minagar Alireza,
  • Cousineau David,
  • Alexander J Steven

DOI
https://doi.org/10.1186/1742-2094-8-43
Journal volume & issue
Vol. 8, no. 1
p. 43

Abstract

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Abstract Objectives We previously reported a correlation between levels of microparticles carrying CD31 (PMP CD31+) and disease activity in MS. However, the effects of long term (12 month) treatment with high dose, high frequency interferon-β1a (Rebif™) on plasma levels of PMPCD31+, PMPCD146+, and PMPCD54+ and MRI measures of disease activity have not yet been assessed. Methods During this prospective 1-year study, we used flow cytometry to measure changes in plasma microparticles (PMP) bearing CD31 (PMPCD31+), CD146 (PMPCD146+), and CD54/ICAM-1 (PMPCD54+) in 16 consecutive patients with relapsing-remitting MS (RRMS) before and after 3, 6, and 12 months of subcutaneous therapy with interferon-beta1a (44 micrograms, 3X weekly). At each visit, clinical exams and expanded disability status scale (EDSS) scores were recorded. Results Plasma levels of PMPCD31+, and PMPCD54+ were significantly reduced by treatment with IFN-β1a. PMPCD146+ appeared to decrease only at 3 months and did not persist at 6 and 12 months (p = 0.0511). In addition, the decrease in plasma levels of PMPCD31+ and PMPCD54+ levels at 12 months were associated with a significant decrease in the number and volume of contrast enhancing T1-weigthed lesions. Conclusion Our data suggest that serial measurement of plasma microparticles (PMP), particularly in the initial stages of MS (when neuro-inflammatory cascades are more intense), may serve as reliable and reproducible surrogate markers of response to IFN-β1a therapy for MS. In addition, the progressive decline in plasma levels of PMPCD31+ and PMPCD54+ further supports the concept that IFN-β1a exerts stabilizing effect on the cerebral endothelial cells during pathogenesis of MS.