Project description:A 63-year-old male who received ciltacabtagene autoleucel (cilta-cel) CAR-T cells and the GPRC5DxCD3 bispecific talquetamab for early relapse of his multiple myeloma (MM) developed a leukemic peripheral T-cell lymphoma (PTCL) with cutaneous and intestinal involvement. Longitudinal single-cell RNA and T-cell receptor sequencing of peripheral blood and bone marrow revealed two hyperexpanded CAR-carrying, exhausted effector-memory T-cell clones with marked immunophenotypic as well as transcriptional alterations and different susceptibilities towards treatment with dexamethasone. Spatial transcriptomes of skin lesions confirmed the aberrant CAR-expressing T cells. Whole genome sequencing revealed three distinct integration sites, within the introns of ZGPAT, KPNA4, and polycomb-associated non-coding RNAs. Pre/post-CAR-T whole-genome analyses implicated clonal outgrowth of a TET2-mutated precursor propelled by additional sub-clone specific LOH and other secondary mechanisms

Project description:A 63-year-old male who received ciltacabtagene autoleucel (cilta-cel) CAR-T cells and the GPRC5DxCD3 bispecific talquetamab for early relapse of his multiple myeloma (MM) developed a leukemic peripheral T-cell lymphoma (PTCL) with cutaneous and intestinal involvement. Longitudinal single-cell RNA and T-cell receptor sequencing of peripheral blood and bone marrow revealed two hyperexpanded CAR-carrying, exhausted effector-memory T-cell clones with marked immunophenotypic as well as transcriptional alterations and different susceptibilities towards treatment with dexamethasone. Spatial transcriptomes of skin lesions confirmed the aberrant CAR-expressing T cells. Whole genome sequencing revealed three distinct integration sites, within the introns of ZGPAT, KPNA4, and polycomb-associated non-coding RNAs. Pre/post-CAR-T whole-genome analyses implicated clonal outgrowth of a TET2-mutated precursor propelled by additional sub-clone specific LOH and other secondary mechanisms

Project description:The number of peripheral blood (PB) circulating tumor cells (CTCs) predicts risk of transformation in smoldering multiple myeloma (MM) and survival in active MM. Growing evidence suggests that as the tumor progresses and the microenvironment becomes hypoxic, clonal plasma cells (PCs) constantly invade new regions of the bone marrow (BM) through induced systemic recirculation. Of note, the frequency of CTCs is typically low and thus, it could be hypothesized that the dissemination of MM is made by few tumor cells with unique features that induce them to egress the BM and spread the disease through PB. This hypothesis has not been demonstrated because the molecular profile of CTCs in MM has not been investigated. We used gene expression profiling (GEP) arrays to identify gene regulatory networks related to disease dissemination by comparing the molecular profile of CTCs with patient-matched BM clonal PCs.

Project description:The number of peripheral blood (PB) circulating tumor cells (CTCs) predicts risk of transformation in smoldering multiple myeloma (MM) and survival in active MM. Growing evidence suggests that as the tumor progresses and the microenvironment becomes hypoxic, clonal plasma cells (PCs) constantly invade new regions of the bone marrow (BM) through induced systemic recirculation. Of note, the frequency of CTCs is typically low and thus, it could be hypothesized that the dissemination of MM is made by few tumor cells with unique features that induce them to egress the BM and spread the disease through PB. This hypothesis has not been demonstrated because the molecular profile of CTCs in MM has not been investigated. We used gene expression profiling (GEP) arrays to identify gene regulatory networks related to disease dissemination by comparing the molecular profile of CTCs with patient-matched BM clonal PCs.

Project description:Multiple myeloma (MM) is an incurable hematological malignancy of mature B lymphocytes. In this study patients with MGUS, SMM and MM followed in two hematology departments were enrolled. Extracellular vesicles were isolated from bone marrow (BM) and peripheral blood (PB) followed by mass spectrometry based bottom up proteomics.

Project description:The number of peripheral blood (PB) circulating tumor cells (CTCs) predicts risk of transformation in smoldering multiple myeloma (MM) and survival in active MM. Growing evidence suggests that as the tumor progresses and the microenvironment becomes hypoxic, clonal plasma cells (PCs) constantly invade new regions of the bone marrow (BM) through induced systemic recirculation. Of note, the frequency of CTCs is typically low and thus, it could be hypothesized that the dissemination of MM is made by few tumor cells with unique features that induce them to egress the BM and spread the disease through PB. This hypothesis has not been demonstrated because the molecular profile of CTCs in MM has not been investigated.

Project description:Understanding the spatial organization of the bone marrow (BM) microenvironment at single cell resolution and the niche specific transcriptional regulatory programs remains a challenge. Using formalin-fixed paraffin-embedded (FFPE) samples from our recently described MIcγ1 multiple myeloma (MM) mouse model (Larrayoz et al, Nat Med. 2023), we performed spatial transcriptional profiling of healthy and multiple myeloma BM using the Visium Spatial Gene Expression analysis (10x Genomics). A custom data-analysis framework that combines spatial with single-cell transcriptomic profiles allowed us to identify cell type composition and establish specific cell relations within the bone marrow. As a result, we defined the spatial distribution of transcriptionally heterogenous MM plasma cell (MM-PC) groups. Furthermore, we spatially defined transcriptional programs involved in the pathogenesis of MM within the BM microenvironment that were associated with MM-PC density gradient, such as the spatial location of T cells with effector and exhausted phenotypes. Application of spatial transcriptomics to FFPE human BM biopsies with varying degrees of PC infiltration validated findings from our murine model. The application of spatial transcriptomics to fully mineralized tissues provides a comprehensive spatial overview of the BM microenvironment allowing the identification of deregulated mechanism involved in the pathogenesis of diseases such as MM.

Project description:Transcriptional atlas of normal PC development in secondary lymphoid organs (SLO), peripheral blood (PB) and BM for comparison with the transcriptional programs (TPs) of tumor PCs in AL, MM and MGUS based on bulk and single-cell RNAseq

Project description:Transcriptional atlas of normal PC development in secondary lymphoid organs (SLO), peripheral blood (PB) and BM for comparison with the transcriptional programs (TPs) of tumor PCs in AL, MM and MGUS based on bulk and single-cell RNAseq

Project description:Large-scale immune monitoring is becoming routinely used in clinical trials to identify determinants of treatment responsiveness, particularly to immunotherapies. Flow cytometry remains one of the most versatile and high throughput approaches for single-cell analysis; however, manual interpretation of multidimensional data poses a challenge to capture full cellular diversity and provide reproducible results. We present FlowCT, a semi-automated workspace empowered to analyze large datasets that includes pre-processing, normalization, multiple dimensionality reduction techniques, automated clustering and predictive modeling tools. As a proof of concept, we used FlowCT to compare the T cell compartment in bone marrow (BM) vs peripheral blood (PB) of patients with smoldering multiple myeloma (MM); identify minimally-invasive immune biomarkers of progression from smoldering to active MM; define prognostic T cell subsets in the BM of patients with active MM after treatment intensification; and assess the longitudinal effect of maintenance therapy in BM T cells. A total of 354 samples were analyzed and immune signatures predictive of malignant transformation in 150 smoldering MM patients (hazard ratio [HR]: 1.7; P <.001), and of progression-free (HR: 4.09; P <.0001) and overall survival (HR: 3.12; P =.047) in 100 active MM patients, were identified. New data also emerged about stem cell memory T cells, the concordance between immune profiles in BM vs PB and the immunomodulatory effect of maintenance therapy. FlowCT is a new open-source computational approach that can be readily implemented by research laboratories to perform quality-control, analyze high-dimensional data, unveil cellular diversity and objectively identify biomarkers in large immune monitoring studies.