Therapeutic Advances in Neurological Disorders (Jun 2019)

Effects of cladribine tablets on lymphocyte subsets in patients with multiple sclerosis: an extended analysis of surface markers

  • Olaf Stuve,
  • Per Soelberg Soerensen,
  • Thomas Leist,
  • Gavin Giovannoni,
  • Yann Hyvert,
  • Doris Damian,
  • Fernando Dangond,
  • Ursula Boschert

DOI
https://doi.org/10.1177/1756286419854986
Journal volume & issue
Vol. 12

Abstract

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Background: Cladribine tablets 3.5 mg/kg cumulative over 2 years (CT3.5) had significant clinical/imaging effects in patients with clinically isolated syndrome (CIS; ORACLE-MS) or relapsing-remitting MS (RRMS; CLARITY and CLARITY Extension). This analysis compared the effect of cladribine tablets on the dynamics of immune cell reduction and reconstitution in ORACLE-MS, CLARITY, and CLARITY Extension during the first year of treatment (i.e. the first course of CT1.75) in patients randomized to CT3.5. Methods: Lymphocyte subtypes were analyzed using multiparameter flow cytometry. Changes in cell counts and relative proportions of lymphocytes were evaluated at weeks 5, 13, 24, and 48. Results: Across studies, consistent and comparable selective kinetics of immune cell populations occurred following the first treatment year with CT. A rapid reduction in CD16 + /CD56 + cells (week 5 nadir), a more marked reduction in CD19 + B cells (week 13 nadir), and a less-pronounced effect on CD4 + (week 13 nadir) and CD8 + T cells (week 24 nadir) was shown. There was little effect on neutrophils or monocytes. Lymphocyte recovery began after treatment with CT3.5. Regarding relative proportions of naïve and memory T-cell subtypes in ORACLE-MS, the proportion of naïve-like naturally occurring T-regulatory cells (nTregs) decreased, and the proportion of memory-like nTregs increased, relative to total CD4 + T cells. Conclusions: CT3.5 has comparable effects on the immune systems of patients with CIS or RRMS. The pronounced reduction and recovery dynamics of CD19 + B cells and relative changes in the proportion of some immune cell subtypes may underlie the clinical effects of CT3.5.