Abstract
Dysproteinemias progress through a series of clonal evolution events in the tumor cell along with the development of a progressively more “permissive” immune tumor microenvironment (iTME). Novel multiparametric cytometry approaches, such as cytometry by time-of-flight (CyTOF) combined with novel gating algorithms can rapidly characterize previously unknown phenotypes in the iTME of tumors and better capture its heterogeneity. Here, we used a 33-marker CyTOF panel to characterize the iTME of dysproteinemia patients (MGUS, multiple myeloma—MM, smoldering MM, and AL amyloidosis) at diagnosis and after standard of care first line therapies (triplet induction chemotherapy and autologous stem cell transplant—ASCT). We identify novel subsets, some of which are unique to the iTME and absent from matched peripheral blood samples, with potential roles in tumor immunosurveillance as well as tumor immune escape. We find that AL amyloidosis has a distinct iTME compared to other dysproteinemias with higher myeloid and “innate-like” T cell subset infiltration. We show that T cell immune senescence might be implicated in disease pathogenesis in patients with trisomies. Finally, we demonstrate that the early post-ASCT period is associated with an increase of senescent and exhausted subsets, which might have implications for the rational selection of post-ASCT therapies.
Highlights
Multiple myeloma (MM) and its precursors, monoclonal gammopathy of undetermined significance (MGUS) and smoldering MM (SMM), progress through a series of clonal evolution events in the tumor cell and the development of a progressively more “permissive” tumor microenvironment (TME)[1]
Mass cytometry reveals a diverse immune microenvironment in dysproteinemias with phenotypes associated with tumor tolerance and immunosurveillance FlowSOM identified 12 distinct immune clusters in the
Using a large cohort of dysproteinemia patients analyzed with cytometry by time-of-flight (CyTOF), we have demonstrated the complexity of the T cell compartment in the immune TME (iTME) of patients with common dysproteinemias
Summary
Multiple myeloma (MM) and its precursors, monoclonal gammopathy of undetermined significance (MGUS) and smoldering MM (SMM), progress through a series of clonal evolution events in the tumor cell and the development of a progressively more “permissive” tumor microenvironment (TME)[1]. Prior studies have demonstrated the role of T cell and innate immune populations in MM pathogenesis[2]. Immune profiling studies using cytometrybased assays represent powerful exploratory tools to identify potential immune subsets of interest that correlate with clinical outcomes[3] and could be targeted with therapy. T cell dysfunction has been implicated in SMM progression[4] and may be reversed to some extent by lenalidomide. Myeloid populations are implicated in osteoclastogenesis and MM progression[5]
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