The Multiple Myeloma Research Foundation (MMRF) CoMMpass trial is the cornerstone of the MMRF Personalized Medicine Initiative. The accrual goal is 1000 patients with newly-diagnosed active multiple with sufficient tumor material for the comprehensive analysis of each tumor genome. Each eligible patient will be followed from initial diagnosis longitudinally for a minimum of 8 years. Additional tumor samples will be collected and comprehensively analyzed when possible for each patient at time of suspect CR, recurrence or progression of disease. The clinical study (NCT0145429) opened in July 2011 and now includes 56 sites in the US and Canada that have enrolled over 300 patients as of Aug. 1, 2013. The frontline treatments permitted in this study include current standard of care therapies containing a proteasome inhibitor, an IMiD or both. The comprehensive analysis of each tumor and matched normal genome involves; Long-Insert Whole Genome Sequencing (WGS) to identify somatic copy number alterations and structural changes, Whole Exome Sequencing (WES) to identify somatic single nucleotide variants and indels, and RNA sequencing (RNAseq) to define transcript expression levels and fusion transcripts. In addition, BRAF pyrosequencing and immunophenotyping analysis are being done in CAP-CLIA certified labs. An extensive, open-access, public clinical and molecular database, the CoMMpass Researcher Gateway (RG) (https://research.themmrf.org), is being developed to facilitate the rapid dissemination of the results and provides the myeloma community with a mechanism to analyze the results. The clinical endpoints and outcomes also include Quality of Life measures and health care resource utilization. An initial interim analysis on the first 178 cases has just been completed and made publicly available through the CoMMpass RG. At the molecular level, BRAF analysis on this serial sample set of newly diagnosed patients identified V600E mutations at rate of 5.7%, confirming our previous observations from a mixture of non-consecutive treated and untreated patient samples in our previous genomic efforts. The flow cytometry panel was designed to provide a comprehensive immunofingerprint of each patient that could be used for minimal residual disease monitoring and to monitor potentially therapeutic options; MS4A1/CD20, CD52, KIT/CD117, and FGFR3. These studies have identified tumors which are 100% positive for these actionable antigens at frequencies of; 16.0% for CD20, 5.7% for CD52, 49.7% for CD117, and 8.5% for FGFR3. Of the 178 cases, 34 were profiled through WGS, WES and RNAseq before this interim analysis. We identified 553 variants (median 19 per patient, range 11-55) were the variant allele detected by WES was also detected by RNAseq, suggesting the variant is potentially biologically relevant. Of these genes, 36 were seen more than once and 7 were identified in three or more patients. This includes NRAS (23.5%), KRAS (14.7%), BRAF (8.8%), DIS3 (8.8%), FAM46C (8.8%), TRAF3 (8.8%), and ZNF100 (8.8%). Interestingly, all three ZNF100 variants show preferential expression of the mutant allele. Within this cohort the only recurrent fusion gene identified is the classic IgH-MMSET fusion transcripts associate with t(4;14). The MMRF CoMMpass is providing unprecedented molecular characterization and correlating clinical datasets that will help define the determinants of response to anti-myeloma agents, reveal new, actionable targets and/or those shared with other cancers and facilitate future clinical trial designs, thus serving as a stepping stone toward personalized medicine for myeloma patients. Disclosures: Auclair: MMRC: Employment. Harrison:MMRC: Employment. Jagannath:Celgene: Honoraria; Millennium: Honoraria. Siegel:Celgene: Honoraria, Speakers Bureau; Millennium: Honoraria, Speakers Bureau; Onyx: Honoraria, Speakers Bureau. Vij:Celgene: Honoraria, Research Funding, Speakers Bureau; Millennium: Honoraria, Speakers Bureau; Onyx: Honoraria, Research Funding, Speakers Bureau. Zimmerman:Celgene: Honoraria; Millenium: Honoraria; Onyx: Honoraria. Capone:MMRC: Employment. Lonial:Millennium: Consultancy; Celgene: Consultancy; Novartis: Consultancy; BMS: Consultancy; Sanofi: Consultancy; Onyx: Consultancy.
Multiple myeloma is a treatable, but currently incurable, hematological malignancy of plasma cells characterized by diverse and complex tumor genetics for which precision medicine approaches to treatment are lacking. The MMRF CoMMpass study is a longitudinal, observational clinical study of newly diagnosed multiple myeloma patients where tumor samples are characterized using whole genome, exome, and RNA sequencing at diagnosis and progression, and clinical data is collected every three months. Analyses of the baseline cohort identified genes that are the target of recurrent gain- and loss-of-function events. Consensus clustering identified 8 and 12 unique copy number and expression subtypes of myeloma, respectively, identifying high-risk genetic subtypes and elucidating many of the molecular underpinnings of these unique biological groups. Analysis of serial samples showed 25.5% of patients transition to a high-risk expression subtype at progression. We observed robust expression of immunotherapy targets in this subtype, suggesting a potential therapeutic option.
Allogeneic donor leukocytes can be used after nonmyeloablative conditioning to exploit their graft-versus-tumor (GVT) activity in the setting of reduced conditioning-regimen toxicity. This approach may be particularly useful for patients who relapse after autologous stem cell transplantation (SCT). However, GVT activity, toxicity, and ability to establish mixed chimerism may differ in patients who were heavily pretreated prior to SCT compared with patients treated earlier in the course of their disease. We have performed a series of studies of nonmyeloablative allogeneic transplantation and present data on the subset of 14 patients treated for relapse after autologous SCT: 4 patients received no conditioning and unstimulated donor leukocyte infusions (DLI), 10 patients received conditioning with fludarabine and cyclophosphamide followed by unstimulated or granulocyte-colony-stimulating factor (G-CSF)-stimulated allogeneic peripheral blood stem cells (PBSCs), 4 patients received no graft-versus-host disease (GVHD) prophylaxis, and 10 patients received cyclosporine GVHD prophylaxis. All but 1 patient had sustained donor chimerism at least 30 days after allogeneic cell therapy (ACT), and 8 patients had more than 80% donor chimerism after ACT. Acute GVHD developed in 11 patients (grade III-IV, n = 6). Aplasia was more frequent in the patients receiving unstimulated PBSCs, despite the development of mixed chimerism. There were 6 complete responses and 4 partial responses; response was independent of conditioning and growth-factor stimulation of the donor graft. Five patients died of treatment-related causes and 4 patients died from progressive disease. Four patients remained alive 27 to 194 weeks (median, 66 weeks) after ACT. Prior autologous SCT may define a subset of patients at particularly high risk for GVHD and other toxicity after ACT. However, these data show that ACT with either DLI or G-CSF-stimulated blood cells results in direct GVT activity in some patients with Hodgkin's disease, myeloma, and non-Hodgkin's lymphoma, even after relapse from autologous SCT. Most patients developed donor chimerism with minimal conditioning. Alternative prophylactic regimens that control GVHD while maintaining GVT are needed to improve outcomes in these heavily pretreated patients.
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