Syngeneic stem cell transplantation generates antigen-specific T cells that maintain myeloma-immune equilibrium

Abstract

Abstract Multiple myeloma (MM) is a largely incurable hematological malignancy characterized by clonal expansion of plasma cells in bone marrow (BM). Autologous stem cell transplantation (ASCT) remains a standard treatment for MM, allows intensive cytoreduction and induces inflammation in the context of lymphodepletion. We hypothesized that SCT may overcome myeloma-induced immune defects to restore immune-equilibrium. To address this, we developed a model of ASCT for MM using Vk*MYC myeloma. Surprisingly, we demonstrate the induction of T cell-dependent MM control after SCT as recipients of syngeneic BM grafts containing T cells had prolonged survival and reduced tumor burden compared to BM alone. This anti-myeloma activity was independent of γδ T, natural killer (NK) and NK T cells and was dependent on CD4+and CD8+ T cells. MM-primed T cells, harvested from SCT recipients with controlled MM, protected against relapse in secondary recipients and were Vk*MYC clone-specific. Recipients of MM-primed T cells had increased central memory CD8+ T cells and transfer of MM-primed CD8+ T cells was sufficient to prevent relapse. Furthermore, TCR sequencing of CD8+ T cells from mice with controlled MM revealed a higher clonotype overlap relative to MM-free SCT recipients, consistent with MM-specific T cells. Donor IFNγ secretion and signaling was critical to protective immunity and CD8+ T cells from mice with relapsed MM had impaired IFNγ production compared to those with controlled disease. Importantly, IFNγ production was profoundly augmented by CD137 agonist treatment such that majority of mice controlled disease. These data provide new insights into the mechanisms of action of SCT in myeloma and suggest the use of CD137 agonists to prevent relapse.