Changes in immune cell populations following KappaMab, lenalidomide and low-dose dexamethasone treatment in multiple myeloma

ObjectivesLenalidomide (LEN) is used to treat multiple myeloma (MM) and shows in vitro synergy with KappaMab (KM), a chimeric antibody specific for Kappa Myeloma antigen, an antigen exclusively expressed on the surface of kappa-restricted MM cells. Lenalidomide, dexamethasone (DEX) and KM control MM via multiple immunomodulatory mechanisms; however, there are several additional effects of the drug combination on immune cells. Lenalidomide can increase T cell and NKT cell cytotoxicity and dendritic cell (DC) activation in vitro. We investigated the immune cell populations in bone marrow of patients treated with KM, LEN and low-dose DEX in kappa-restricted relapsed/refractory MM ex vivo and assessed association of those changes with patient outcome.MethodsA cohort (n = 40) of patients with kappa-restricted relapsed/refractory MM, treated with KM, LEN and low-dose DEX, was analysed using a mass cytometry panel that allowed identification of immune cell subsets. Clustering analyses were used to determine significant changes in immune cell populations at time periods after treatment.ResultsWe found changes in five DC and 17 T-cell populations throughout treatment. We showed an increase in activated conventional DC populations, a decrease in immature/precursor DC populations, a decrease in activated CD4 T cells and an increase in effector-memory CD4 T cells and effector CD8 T cells, indicating an activated immune response.ConclusionThese data characterise the effects of LEN, DEX, and KM treatment on non-target immune cells in MM. Treatment may support destruction of MM cells by both direct action and indirect mechanisms via immune cells. This research identifies dendritic cell and T-cell populations that are modulated by KappaMab, lenalidomide and low-dose dexamethasone treatment in MM. We show that these changes are associated with a reduction in myeloma burden. We argue that immune signatures obtained by high-dimensional cytometry analysis from clinical trial data can be a predictor of treatment outcome.aimage

Automated summary

This study investigated the effects of KM, LEN, and low-dose DEX treatment on non-target immune cells in MM. The research identified changes in dendritic cell and T-cell populations that are modulated by this treatment, showing an activated immune response. These changes were associated with a reduction in myeloma burden and could potentially serve as a predictor of treatment outcome.