Abstract

8588 Background: MOR202 (MOR03087), a human CD38 antibody currently under evaluation in a phase I/IIa trial, mediates antibody-dependent cell-mediated cytotoxicity/phagocytosis (ADCC/ADCP) of multiple myeloma (MM) patient-derived cells with high potency (EC50 ~200 pM). IMiD compounds such as lenalidomide (LEN) or pomalidomide (POM), both approved in MM, were evaluated in vitro for their ability to modulate CD38 expression and enhance the cytotoxicity of MOR202. Methods: CD38 expression +/- LEN and +/- POM on MM cell lines was analyzed by flow cytometry. The antitumor activity of POM combined with MOR202 was evaluated in vitro; analyses included the induction of direct cytotoxicity of MM cells and the activation of immune effector cells. On a functional level, the combinatorial effects of MOR202 with POM were assessed in ADCC assays. Different incubation schemes were used to separate the effect of POM on target and effector cells, as well as in the evaluation of the combined effects. The observed combination effects were analyzed for synergistic potential using the fractional product concept. Results: POM and LEN mediated a substantial CD38 upregulation on MM cell lines. POM as a single agent showed activation of effector cells and with high potency (EC50 ~150 nM), cytotoxic effects on MM cell lines. Additionally, POM dose-dependently induced an up to 3-fold CD38 upregulation (EC50 ~20 nM) on CD38-expressing MM cell lines. POM-mediated effects were time-dependent, with the most pronounced effects after 72 h incubation. Combining MOR202 with POM led to a synergistic enhancement of cytotoxic activity. The synergy benefit ranged between 1.2–3.1-fold above theoretical additivity, depending on the cell line used, and was most prominent in the case of strong CD38 upregulation. Conclusions: Upregulation of CD38 was mediated by both LEN and POM and may represent a class effect of IMiD compounds. The cytotoxic activity of MOR202 on MM cells was enhanced by POM via multiple mechanisms: direct cytotoxicity, CD38 upregulation and activation of effector cells. These results provide a mechanistic rationale for the combination of MOR202 with IMiD compounds and warrant further clinical evaluation.