In multiple myeloma, next-generation sequencing (NGS) has expanded our knowledge of genomic lesions, and highlighted a dynamic and heterogeneous composition of the tumor. Here we used NGS to characterize the genomic landscape of 418 multiple myeloma cases at diagnosis and correlate this with prognosis and classification. Translocations and copy number abnormalities (CNAs) had a preponderant contribution over gene mutations in defining the genotype and prognosis of each case. Known and novel independent prognostic markers were identified in our cohort of proteasome inhibitor and immunomodulatory drug-treated patients with long follow-up, including events with context-specific prognostic value, such as deletions of the PRDM1 gene. Taking advantage of the comprehensive genomic annotation of each case, we used innovative statistical approaches to identify potential novel myeloma subgroups. We observed clusters of patients stratified based on the overall number of mutations and number/type of CNAs, with distinct effects on survival, suggesting that extended genotype of multiple myeloma at diagnosis may lead to improved disease classification and prognostication.
Purpose: Immune-mediated graft-versus-tumor (GVT) effects can occur after allogeneic hematopoietic stem cell transplantation (HSCT), but GVT is tightly linked to its main complication, graft-versus-host disease (GVHD). Strategies aimed at modulating GVHD, while maintaining the GVT effect, are needed to improve the cure rate of transplant. Given the emerging role of Janus-activated kinase (JAK) signaling in lymphoproliferative and myeloproliferative diseases and its established function at dictating T-cell differentiation, we postulated that JAKs might be potential therapeutic targets through a pharmacologic approach.Experimental Design: We examined the effect of JAK1/JAK2 modulation by ruxolitinib in a mouse model of fully MHC mismatched bone marrow transplant comprising in vivo tumor inoculation.Results: JAK1/JAK2 inhibition by ruxolitinib improved both overall survival (P ¼ 0.03) and acute GVHD pathologic score at target organs (P 0.001) of treated mice. In addition, treatment with ruxolitinib was associated with a preserved GVT effect, as evidenced by reduction of tumor burden (P ¼ 0.001) and increase of survival time (P ¼ 0.01). JAK1/JAK2 inhibition did not impair the in vivo acquisition of donor T-cell alloreactivity; this observation may account, at least in part, to the preserved GVT effect. Rather, JAK1/JAK2 inhibition of GVHDwas associated withthe modulation of chemokine receptor expression, which may have been one factor in the reduced infiltration of donor T cells in GVHD target organs.Conclusions: These data provide further evidence that JAK inhibition represents a new and potentially clinically relevant approach to GVHD prevention.
Myeloid-derived suppressor cells (MDSCs) are powerful immunomodulatory cells that in mice play a role in infectious and inflammatory disorders, including acute graft-versus-host disease (GVHD) after allogeneic hematopoietic stem cell transplantation. Their relevance in clinical acute GVHD is poorly known. We analyzed whether granulocyte colony-stimulating factor (G-CSF) administration, used to mobilize hematopoietic stem cells, affected the frequency of MDSCs in the peripheral blood stem cell grafts of 60 unrelated donors. In addition, we evaluated whether the MDSC content in the peripheral blood stem cell grafts affected the occurrence of acute GVHD in patients undergoing unrelated donor allogeneic stem cell transplantation. Systemic treatment with G-CSF induces an expansion of myeloid cells displaying the phenotype of monocytic MDSCs (Lin(low/neg)HLA-DR(-)CD11b(+)CD33(+)CD14(+)) with the ability to suppress alloreactive T cells in vitro, therefore meeting the definition of MDSCs. Monocytic MDSC dose was the only graft parameter to predict acute GVHD. The cumulative incidence of acute GVHD at 180 days after transplantation for recipients receiving monocytic MDSC doses below and above the median was 63% and 22%, respectively (P = .02). The number of monocytic MDSCs infused did not impact the relapse rate or the transplant-related mortality rate (P > .05). Although further prospective studies involving larger sample size are needed to validate the exact monocytic MDSC graft dose that protects from acute GVHD, our results strongly suggest the modulation of G-CSF might be used to affect monocytic MDSCs graft cell doses for prevention of acute GVHD.
In multiple myeloma, next generation sequencing (NGS) has expanded our knowledge of genomic lesions, and highlighted a dynamic and heterogeneous composition of the tumor. Here, we used NGS to characterize the genomic landscape of 418 multiple myeloma cases at diagnosis and correlate this with prognosis and classification. Translocations and copy number changes (CNAs) had a preponderant contribution over gene mutations in defining the genotype and prognosis of each case. Known and novel independent prognostic markers were identified in our cohort of proteasome inhibitor and IMiD-treated patients with long follow-up, including events with context-specific prognostic value, such as deletions of the PRDM1 gene. Taking advantage of the comprehensive genomic annotation of each case, we used innovative statistical approaches to identify potential novel myeloma subgroups. We observed clusters of patients stratified based on the overall number of mutations and number/type of CNAs, with distinct effects on survival, suggesting that extended genotype of multiple myeloma at diagnosis may lead to improved disease classification and prognostication.
Novel treatments for multiple myeloma (MM) have increased rates of complete response, raising interest in more accurate methods to evaluate residual disease. Cell-free tumor DNA (cfDNA) analysis may represent a minimally invasive approach complementary to multiparameter flow cytometry (MFC) and molecular methods on bone marrow aspirates. A sequencing approach using the Ion Torrent Personal Genome Machine was applied to identify clonal IGH gene rearrangements in tumor plasma cells (PCs) and in serial plasma samples of 25 patients with MM receiving second-line therapy. The same clonal IGH rearrangement identified in tumor PCs was detected in paired plasma samples, and levels of IGH cfDNA correlated with outcome and mirrored tumor dynamics evaluated using conventional laboratory parameters. In addition, IGH cfDNA levels reflected the number of PCs enumerated by MFC immunophenotyping even in the complete response context. Patients determined by MFC to be free of minimal residual disease were characterized by low frequencies of tumor clonotypes in cfDNA and longer survival. This pilot study supports the clinical applicability of the noninvasive monitoring of tumor levels in plasma samples of patients with MM by IGH sequencing.
Acute graft-versus-host disease (aGVHD) results in significant morbidity and mortality after allogeneic hematopoietic stem cell transplantation (allo-HSCT). Noninvasive diagnostic and prognostic tests for aGVHD are currently lacking, but would be beneficial in predicting aGVHD and improving the safety of allo-HSCT. Circulating microRNAs exhibit marked stability and may serve as biomarkers in several clinical settings. Here, we evaluated the use of circulating microRNAs as predictive biomarkers of aGVHD in lymphoma patients after allo-HSCT from matched unrelated donors (MUDs). After receiving informed consent, we prospectively collected plasma samples from 24 lymphoma patients before and after unmanipulated MUD allo-HSCT; microRNAs were then isolated. Fourteen patients developed aGVHD symptoms at a median of 48 days (range: 32-90) post-transplantation. Two patients developed intestinal GVHD, eight cutaneous GVHD, and four multiorgan GVHD. The microRNA expression profile was examined using quantitative real-time polymerase chain reaction (qRT-PCR). MicroRNAs 194 and 518f were significantly upregulated in aGVHD samples compared with samples taken from non-aGVHD patients. Remarkably, these upregulated microRNAs could be detected before the onset of aGVHD. Pathway prediction analysis indicated that these microRNAs may regulate critical pathways involved in aGVHD pathogenesis. Considering the noninvasive characteristics of plasma sampling and the feasibility of detecting miRNAs after allo-HSCT using real-time polymerase chain reaction, our results indicate that circulating microRNAs have the potential to enable an earlier aGVHD diagnosis and might assist in individualizing therapeutic strategies after MUD allo-HSCT. Nevertheless, standardization of blood sampling and analysis protocols is mandatory for the introduction of miRNA profiling into routine clinical use.
Adjuvant HIPEC may benefit CRC patients at high-risk for peritoneal failure. These results warrant confirmation in phase III trials.
Background: Approximately 50% of patients with peripheral T-cell lymphoma (PTCL) enter long-term remission after standard chemotherapy and stem cell transplantation. Patients who do not respond to chemotherapy have few treatment options highlighting the critical need for new effective and targeted therapeutics. Aberrant T cell receptor (TCR) and tyrosine kinase (TK) signaling have been described in PTCL (Agostinelli 2014;Netchiporouka 2014). Single-agent TK inhibitors (TKIs) have significantly improved patient outcomes across multiple tumor subtypes. However, TKI therapy is rarely curative. The recent discovery of a subgroup of PTCL characterized by high levels of GATA3 and c-Myc expression and poor prognosis (Iqbal 2014; Manso 2016), establishes the rationale of targeting c-Myc in PTCLs. Based on the demonstration that pharmacologic inhibition of c-Myc is achievable through targeting bromodomain and extra terminal (BET) family of chromatin adapters, the therapeutic potential of BET inhibition was assessed in a panel of T cell lymphoma and leukemia cell lines. Since expression of c-Myc is regulated by the TCR, we also hypothesized that simultaneous targeting of c-Myc and TCR would significantly enhance the antiproliferative effects of BET inhibitors (BETis) and TKI alone in preclinical models of PTCL. Methods: Five T-cell lymphoma and leukemia cell lines (Jurkat, HD-MAR-2, Karpas 299, Sup-T1, HH) were incubated with escalating doses of JQ1 (a small-molecule BETi with the highest affinity for BRD4) and OTX-015 (a BETi with a broader affinity for BRD2, BRD3, BRD4) and the tyrosine-kinase-inhibitor Dasatinib. Analysis of cell viability, cell cycle distribution, apoptosis and mitochondrial depolarization was performed using flow cytometry. Effects of treatments were assessed using gene expression profiling (GEP) and western blotting (WB). Combinations were evaluated using the Chou-Talalay Combination Index (CI), calculated with CompuSyn software (CompuSyn Inc, Paramus, NJ). Results: JQ1 and OTX-015 show antiproliferative activity with IC50 at nanomolar concentrations in all cell lines. As assessed determining viable cells by PI exclusion and flow cytometry, JQ1 and OTX-015 are similarly active in a dose-dependent manner in all cell lines. To understand the activity of JQ1 and OTX-015, we analyzed cell-cycle distribution using flow cytometry. JQ1 and OTX-015 induce a cell cycle arrest with G1-phase accumulation and decrease S-phase with the exception of SUPT1 cells that are characterized by a cell cycle arrest in G2-phase. Minimal increase in the sub-G1 population is observed in all cell lines, suggesting that JQ1 and OTX-015 mainly exert a cytostatic effect. We then examined GATA3 and c-Myc protein levels in all cell lines: varying amounts of GATA3 and c-Myc proteins were observed but a strong correlation between GATA3 and c-Myc expression was detected. After JQ1 and OTX-015 exposure, c-Myc protein level decrease in all cell lines apart from SUP-T1 cell line. Here c-Myc level do not change significantly upon BETis exposure, suggesting that BETis target other pathways relevant for SUP-T1 survival. Dasatinib efficiently inhibits the proliferation in all cell lines at micromolar concentrations in a dose-dependent manner. Dasatinib induces G0/G1-phase arrest and an increase in sub-G1 population indicating a modest induction of apoptosis confirmed by caspase-9 activation and mitochondrial depolarization. Compared to all single agents, combined treatments with sub-optimal concentrations of Dasatinib and JQ1 or OTX-015 exert synergistic lethal activity against all tested cell lines (C.I.<1). To uncover the main biological processes behind the synergistic interactions of BETis and Dasatinib, cell cycle analysis was assessed indicating that both combinations induce a significant increase of sub-G1 population associated with massive mitochondrial depolarization and cleavage of Caspase-9 and PARP. Conclusions: The experiments presented here support the combination of BET inhibitors with the TK inhibitor Dasatinib for PTCLs. Our data suggest a synergistic interaction for the combination of both BETis and Dasatinib in vitro. Mechanistically, combined treatments exert synergistic anti-tumor effects in all cell lines through growth inhibitory effects, direct induction of cell death by promotion of caspase-dependent apoptosis and mitochondrial depolarization. Disclosures No relevant conflicts of interest to declare.
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