Objectives: Reconstitution of B-cells after their therapeutic depletion with rituximab mimics the ontogeny of the B-cell linage in patients with rheumatoid arthritis. However, little is known about the effects of multiple cycles of treatment on the repletion kinetics and their long-lasting effects on the B-cell compartment. We therefore compared the recovery capacity of the B cell subpopulations between patients who experienced their first cycle of rituximab and those who experienced successive cycles.
Methods: The distribution of the different B-cell subsets was characterised by multiparametric flow cytometry in the peripheral blood of 29 patients in the first rituximab course (naïve cycles) and 40 patients in successive cycles. Samples were obtained at baseline and at 3, 6, and 8 months of each cycle.
Results: The baseline percentage of B-cell subsets was similar among successive cycles. Therefore, successive cycles were grouped for comparison with naïve cycles. Patients in naïve cycles had higher percentages at baseline of both total and memory B-cells. However, the recovery of the different B-cell subsets was similar between naïve and successive cycles. In naïve patients the percentage of transitional B-cells significantly correlated with disease activity at baseline.
Conclusions: Rituximab induces a long-term reshape of the B-cell compartment while multiple cycles of rituximab do not induce cumulative effects on B-cell subpopulations. Transitional B-cells seem to be associated with higher disease activity, although further studies are needed to determine if they can be used as a biomarker to predict the need for rituximab retreatment.