BACKGROUND: Monoclonal antibodies are promising anti-myeloma treatments. As immunoglobulins, monoclonal antibodies have the potential to be identified by serum protein electrophoresis (SPE) and immunofixation electrophoresis (IFE). Therapeutic antibody interference with standard clinical SPE and IFE can confound the use of these tests for response assessment in clinical trials and disease monitoring. METHODS: To discriminate between endogenous myeloma protein and daratumumab, a daratumumab-specific immunofixation electrophoresis reflex assay (DIRA) was developed using a mouse anti-daratumumab antibody. To evaluate whether anti-daratumumab bound to and shifted the migration pattern of daratumumab, it was spiked into daratumumab-containing serum and resolved by IFE/SPE. The presence (DIRA positive) or absence (DIRA negative) of residual M-protein in daratumumab-treated patient samples was evaluated using predetermined assessment criteria. DIRA was evaluated for specificity, limit of sensitivity, and reproducibility. RESULTS: In all of the tested samples, DIRA distinguished between daratumumab and residual M-protein in commercial serum samples spiked with daratumumab and in daratumumab-treated patient samples. The DIRA limit of sensitivity was 0.2 g/L daratumumab, using spiking experiments. Results from DIRA were reproducible over multiple days, operators, and assays. The anti-daratumumab antibody was highly specific for daratumumab and did not shift endogenous M-protein. CONCLUSIONS: As the treatment of myeloma evolves to incorporate novel monoclonal antibodies, additional solutions will be needed for clinical monitoring of patient responses to therapeutic regimens. In the interim, assays such as DIRA can inform clinical outcomes by distinguishing daratumumab from endogenous M-protein by IFE.
BACKGROUND: Monoclonal antibodies are promising anti-myeloma treatments. As immunoglobulins, monoclonal antibodies have the potential to be identified by serum protein electrophoresis (SPE) and immunofixation electrophoresis (IFE). Therapeutic antibody interference with standard clinical SPE and IFE can confound the use of these tests for response assessment in clinical trials and disease monitoring. METHODS: To discriminate between endogenous myeloma protein and daratumumab, a daratumumab-specific immunofixation electrophoresis reflex assay (DIRA) was developed using a mouse anti-daratumumab antibody. To evaluate whether anti-daratumumab bound to and shifted the migration pattern of daratumumab, it was spiked into daratumumab-containing serum and resolved by IFE/SPE. The presence (DIRA positive) or absence (DIRA negative) of residual M-protein in daratumumab-treated patient samples was evaluated using predetermined assessment criteria. DIRA was evaluated for specificity, limit of sensitivity, and reproducibility. RESULTS: In all of the tested samples, DIRA distinguished between daratumumab and residual M-protein in commercial serum samples spiked with daratumumab and in daratumumab-treated patient samples. The DIRA limit of sensitivity was 0.2 g/L daratumumab, using spiking experiments. Results from DIRA were reproducible over multiple days, operators, and assays. The anti-daratumumab antibody was highly specific for daratumumab and did not shift endogenous M-protein. CONCLUSIONS: As the treatment of myeloma evolves to incorporate novel monoclonal antibodies, additional solutions will be needed for clinical monitoring of patient responses to therapeutic regimens. In the interim, assays such as DIRA can inform clinical outcomes by distinguishing daratumumab from endogenous M-protein by IFE.
Authors: Peter M Voorhees; Jonathan L Kaufman; Jacob Laubach; Douglas W Sborov; Brandi Reeves; Cesar Rodriguez; Ajai Chari; Rebecca Silbermann; Luciano J Costa; Larry D Anderson; Nitya Nathwani; Nina Shah; Yvonne A Efebera; Sarah A Holstein; Caitlin Costello; Andrzej Jakubowiak; Tanya M Wildes; Robert Z Orlowski; Kenneth H Shain; Andrew J Cowan; Sean Murphy; Yana Lutska; Huiling Pei; Jon Ukropec; Jessica Vermeulen; Carla de Boer; Daniela Hoehn; Thomas S Lin; Paul G Richardson Journal: Blood Date: 2020-08-20 Impact factor: 22.113
Authors: Ajai Chari; Joaquín Martinez-Lopez; María-Victoria Mateos; Joan Bladé; Lotfi Benboubker; Albert Oriol; Bertrand Arnulf; Paula Rodriguez-Otero; Luis Pineiro; Andrzej Jakubowiak; Carla de Boer; Jianping Wang; Pamela L Clemens; Jon Ukropec; Jordan Schecter; Sagar Lonial; Philippe Moreau Journal: Blood Date: 2019-05-21 Impact factor: 22.113
Authors: Torben Plesner; Hendrik-Tobias Arkenau; Peter Gimsing; Jakub Krejcik; Charlotte Lemech; Monique C Minnema; Ulrik Lassen; Jacob P Laubach; Antonio Palumbo; Steen Lisby; Linda Basse; Jianping Wang; A Kate Sasser; Mary E Guckert; Carla de Boer; Nushmia Z Khokhar; Howard Yeh; Pamela L Clemens; Tahamtan Ahmadi; Henk M Lokhorst; Paul G Richardson Journal: Blood Date: 2016-08-16 Impact factor: 22.113