Camelid-derived CD38 antibody successfully circumvents epitope blockade by the therapeutic anti-CD38 antibody daratumumab.

Objectives: To evaluate the efficacy of an anti-CD38 nanobody to detect plasma cells in a flow cytometry myeloma minimal residual disease (MRD) panel in patients treated with daratumumab and other immunotherapies.

Methods: Twenty-three bone marrow samples from as many patients were collected during or at the end of daratumumab treatment cycles. A 5-tube, 8-color flow cytometry MRD panel was performed. Dotplots were reviewed, and the median fluorescence intensity (MFI) was calculated.

Results: Patients' ages ranged from 45 to 77 years, and the cohort was made up of 13 men and 10 women who had undergone 2 to 24 cycles of daratumumab therapy at the time of myeloma MRD testing. In all 23 cases, therapeutic use of daratumumab impaired pathologists' ability to measure CD38 on plasma cells when using a conventional murine monoclonal antibody (anti-CD38 fluorescein isothiocyanate [FITC], clone T16; Beckman Coulter). In 21 of the 23 cases, the measurement of CD38 was restored when the anti-CD38 nanobody was employed. Compared with anti-CD38 FITC, the anti-CD38 Alexa Fluor 488 nanobody (Beckman Coulter) produced higher MFI and allowed measurement of a higher frequency of discernable plasma cells.

Conclusions: The camelid-derived CD38 antibody successfully circumvents the steric inhibition of CD38 that the therapeutic use of daratumumab imparts and facilitates myeloma MRD plasma cell detection.