Abstract
Cellular immunotherapy frequently fails to induce sustained remissions in patients with multiple myeloma, indicating the ability of multiple myeloma cells to evade cellular immunity. Toward a better understanding and effective therapeutic modulation of multiple myeloma immune evasion mechanisms, we here investigated the role of the tumor microenvironment in rendering multiple myeloma cells resistant to the cytotoxic machinery of T cells. Using a compartment-specific, bioluminescence imaging-based assay system, we measured the lysis of luciferase-transduced multiple myeloma cells by CD4(+) or CD8(+) CTLs in the presence versus absence of adherent accessory cells of the bone marrow microenvironment. We simultaneously determined the level of CTL activation by measuring the granzyme B release in culture supernatants. Bone marrow stromal cells from patients with multiple myeloma and healthy individuals, as well as vascular endothelial cells, significantly inhibited the lysis of multiple myeloma cells in a cell-cell contact-dependent manner and without substantial T-cell suppression, thus showing the induction of a cell adhesion-mediated immune resistance (CAM-IR) against CTL lysis. Further analyses revealed that adhesion to accessory cells downregulated Fas and upregulated the caspase-3 inhibitor survivin in multiple myeloma cells. Reconstitution of Fas expression with bortezomib enhanced the CTL-mediated lysis of multiple myeloma cells. Repressing survivin with the small-molecule YM155 synergized with CTLs and abrogated CAM-IR in vitro and in vivo. These results reveal the cell adhesion-mediated induction of apoptosis resistance as a novel immune escape mechanism and provide a rationale to improve the efficacy of cellular therapies by pharmacologic modulation of CAM-IR.
Highlights
Multiple myeloma (MM) has long been the paradigmatic model for investigating the role of the microenvironment in blood cancers [1]
These results reveal the cell adhesion-mediated induction of apoptosis resistance as a novel immune escape mechanism and provide a rationale to improve the efficacy of cellular therapies by pharmacologic modulation of cell adhesion-mediated immune resistance (CAM-IR)
We show that bone marrow stromal cells (BMSC) from patients with multiple myeloma and healthy individuals as well as vascular endothelial cells significantly inhibit the CTL-mediated lysis of multiple myeloma cells, without overt CTL suppression and predominantly due to the induction of immune resistance
Summary
Multiple myeloma (MM) has long been the paradigmatic model for investigating the role of the microenvironment in blood cancers [1]. This concept, generally known as cell adhesion-mediated drug resistance (CAM-DR), is considered as one of the major obstacles hindering successful treatment [5,6,7] To these well-documented roles on multiple myeloma cell survival, growth, and drug resistance, recent evidence indicates that the bone marrow microenvironment facilitates multiple myeloma cells to escape the immune system [8]. This is important, because despite the therapeutic potential of cellular immunotherapies, such as allogeneic stem cell transplantation or donor lymphocyte infusions [9,10,11], the majority of patients with multiple myeloma receiving these therapies www.aacrjournals.org de Haart et al
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