OBJECTIVES: B-cell depletion using rituximab (RTX) has proven efficacy in patients with RA. Long-term effects on the B-cell system after single and repeated treatments are sparse. Our aim was to study the effect of multiple courses of rituximab to evaluate its impact on repeated B-cell re-population capacity. METHODS: Two cohorts, altogether 20 patients with RA were included in an open label extension study with RTX. Cohort 1 received one cycle RTX and was followed for up to 7 years. In cohort 2 patients were studied under up to 5 cycles of RTX. Immunophenotyping was performed before therapy and during follow-up. RESULTS: After a single therapy with RTX (cohort 1) the frequency of pre-switch (MZ-like) B cells were significantly reduced during the follow-up of 7 years and absolute numbers slowly repopulated to nearly 50% of baseline value without numerical normalisation. The acquisition of mutations in Ig receptors of pre-switch (MZ-like) memory B cells was also significantly reduced 10 years after one course. In contrast, absolute numbers of (classical) post-switch B cells tended to normalise to baseline values after 7 years. Analysing B-cell repopulation capacities after multiple cycles revealed (cohort 2) a comparable repopulation pattern after each cycle with no substantial further impact on memory B cells. CONCLUSIONS: A single therapy with RTX leads to long-term changes in the memory B-cell compartment particularly in pre-switch memory B cells. Multiple cycles of RTX show a comparable repopulation pattern after each cycle with no additional cumulative effect on memory B cells.
OBJECTIVES: B-cell depletion using rituximab (RTX) has proven efficacy in patients with RA. Long-term effects on the B-cell system after single and repeated treatments are sparse. Our aim was to study the effect of multiple courses of rituximab to evaluate its impact on repeated B-cell re-population capacity. METHODS: Two cohorts, altogether 20 patients with RA were included in an open label extension study with RTX. Cohort 1 received one cycle RTX and was followed for up to 7 years. In cohort 2 patients were studied under up to 5 cycles of RTX. Immunophenotyping was performed before therapy and during follow-up. RESULTS: After a single therapy with RTX (cohort 1) the frequency of pre-switch (MZ-like) B cells were significantly reduced during the follow-up of 7 years and absolute numbers slowly repopulated to nearly 50% of baseline value without numerical normalisation. The acquisition of mutations in Ig receptors of pre-switch (MZ-like) memory B cells was also significantly reduced 10 years after one course. In contrast, absolute numbers of (classical) post-switch B cells tended to normalise to baseline values after 7 years. Analysing B-cell repopulation capacities after multiple cycles revealed (cohort 2) a comparable repopulation pattern after each cycle with no substantial further impact on memory B cells. CONCLUSIONS: A single therapy with RTX leads to long-term changes in the memory B-cell compartment particularly in pre-switch memory B cells. Multiple cycles of RTX show a comparable repopulation pattern after each cycle with no additional cumulative effect on memory B cells.
Authors: Adam J Pelzek; Caroline Grönwall; Pamela Rosenthal; Jeffrey D Greenberg; Mandy McGeachy; Larry Moreland; William F C Rigby; Gregg J Silverman Journal: Arthritis Rheumatol Date: 2017-05-03 Impact factor: 10.995
Authors: Stefan Bittner; Tobias Ruck; Heinz Wiendl; Oliver M Grauer; Sven G Meuth Journal: Ther Adv Neurol Disord Date: 2016-09-02 Impact factor: 6.570
Authors: Michael Gernert; Hans-Peter Tony; Eva Christina Schwaneck; Ottar Gadeholt; Matthias Fröhlich; Jan Portegys; Patrick-Pascal Strunz; Marc Schmalzing Journal: Rheumatol Int Date: 2021-10-25 Impact factor: 3.580
Authors: Zafar Mahmood; Khalid Muhammad; Marc Schmalzing; Petra Roll; Thomas Dörner; Hans-Peter Tony Journal: Arthritis Res Ther Date: 2015-03-14 Impact factor: 5.156