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Featured Publications
Next-Generation Sequencing in Adult B Cell Acute Lymphoblastic Leukemia Patients
Biology of Blood and Marrow Transplantation | January, 2017We used next generation sequencing (NGS) of the immunoglobulin genes to evaluate residual disease in 153 specimens from 32 patients with adult B cell ALL enrolled in a single, multi-center study. The sequencing results were compared to multi-parameter flow cytometry (MFC) data in 66 specimens (25 patients) analyzed by both methods. There was a strong concordance (82%) between the methods in the qualitative determination of the presence of disease. However, in 17% of cases leukemia was detected by sequencing, but not by MFC. In 54 bone marrow (BM) and peripheral blood (PB) paired specimens, the burden of leukemia detected by NGS was lower in PB than BM, although still detectable in 68% of the 28 paired specimens with positive BM.
VIEW
Next-generation sequencing-based detection of circulating tumour DNA after allogeneic stem cell transplantation for lymphoma
British Journal of Haematology | December, 2016Next-generation sequencing (NGS)-based circulating tumour DNA (ctDNA) detection is a promising monitoring tool for lymphoid malignancies. We evaluated whether the presence of ctDNA was associated with outcome after allogeneic haematopoietic stem cell transplantation (HSCT) in lymphoma patients. We studied 88 patients drawn from a phase 3 clinical trial of reduced-intensity conditioning HSCT in lymphoma. Conventional restaging and collection of peripheral blood samples occurred at pre-specified time points before and after HSCT and were assayed for ctDNA by sequencing of the immunoglobulin or T-cell receptor genes. Tumour clonotypes were identified in 87% of patients with adequate tumour samples.
VIEW
CD19 CAR–T cells of defined CD4+:CD8+ composition in adult B cell ALL patients
The Journal of Clinical Investigation | April, 2016T cells that have been modified to express a CD19-specific chimeric antigen receptor (CAR) have antitumor activity in B cell malignancies; however, identification of the factors that determine toxicity and efficacy of these T cells has been challenging in prior studies in which phenotypically heterogeneous CAR–T cell products were prepared from unselected T cells.
Immunotherapy with a CAR–T cell product of defined composition enabled identification of factors that correlated with CAR–T cell expansion, persistence, and toxicity and facilitated design of lymphodepletion and CAR–T cell dosing strategies that mitigated toxicity and improved disease-free survival.
VIEW
TCR Sequencing Can Identify and Track Glioma-Infiltrating T Cells after DC Vaccination
Cancer Immunology Research | March, 2016Although immunotherapeutic strategies are emerging as adjunctive treatments for cancer, sensitive methods of monitoring the immune response after treatment remain to be established. We used a novel next-generation sequencing approach to determine whether quantitative assessments of tumor-infiltrating lymphocyte (TIL) content and the degree of overlap of T-cell receptor (TCR) sequences in brain tumors and peripheral blood were predictors of immune response and overall survival in glioblastoma patients treated with autologous tumor lysate–pulsed dendritic cell immunotherapy. A statistically significant correlation was found between a higher estimated TIL content and increased time to progression and overall survival.
VIEW
T-cell receptor profiling in cancer
Molecular Oncology | September, 2015Immunosequencing is a platform technology that allows the enumeration, specification and quantification of each and every B- and/or T-cell in any biologic sample of interest. Thus, it provides an assessment of the level and distribution of all the clonal lymphocytes in any sample, and allows “tracking” of a single clone or multiple clones of interest over time or from tissue to tissue within a given patient. It is based on bias-controlled multiplex PCR and high-throughput sequencing, and it is highly accurate, standardized, and sensitive.
VIEW
Multiplex Identification of Antigen-Specific T Cell Receptors Using a Combination of Immune Assays and Immune Receptor Sequencing
PLOS ONE | October, 2015Monitoring antigen-specific T cells is critical for the study of immune responses and development of biomarkers and immunotherapeutics. We developed a novel multiplex assay that combines conventional immune monitoring techniques and immune receptor repertoire sequencing to enable identification of T cells specific to large numbers of antigens simultaneously. We multiplexed 30 different antigens and identified 427 antigen-specific clonotypes from 5 individuals with frequencies as low as 1 per million T cells. The clonotypes identified were validated several ways including repeatability, concordance with published clonotypes, and high correlation with ELISPOT.
VIEW
Poster, Basic Immunology, Methodology
Deep sequencing of the human TCRγ and TCRβ repertoires provides evidence that TCRβ rearranges after αβ, γδ T cell commitment
ASHG 2011 Conference | October, 2011
Poster, Methodology
Immune profiling with high-throughput sequencing
ASHI 2011 conference | October, 2011
Poster, Application
Deep profiling of the mouse TCRβ CDR3 region in thymus and spleen
| October, 2010
To recognize a diverse and unpredictable universe of antigens, the adaptive immune system generates a remarkable breadth of diversity by combinatoric shuffling of T cell receptor (TCR) gene segments in somatic cells. The TCR signals an immune response by the lymphocyte when the TCR binds to an antigen displayed on the MHC of an infected cell. The TCR is a heterodimer composed of two chains, either the αβ or the γδ,the expression of which is determined during maturation of the naive T cell in the thymus. Prior to exiting the thymus, the developmental pathway includes a number of selection events that commits the T cell to express either the αβ or the γδ lineage by productively rearranging the TCR gene segments. The αβ-committed T cells then undergo additional selection events to screen out the thymocytes in which the TCR recognizes its cognate MHC ligand too avidly, thereby removing potential self-reacting T cells in a process termed negative selection. Conversely, during positive selection thymocyte survival and its developmental lineage are determined by the ability of the TCR to bind the MHC complex.
The size of the naive mouse αβ repertoire is estimated to be approximate two million clones of approximately 10 cells each (Casrouge et al, J Immunol 164:5782-5787, 2000). The theoretical maximum diversity of 1015 unique αβ TCR (Davis and Bjorkman, Nature 334:395-402, 1988) far exceeds the observed repertoire illustrating the combined effects of positive and negative selection to narrow the set of functional TCRs.
To profile the diversity of murine TCR we used massively parallel DNA sequencing with highly specialized software tools to generate and analyze millions of TCRβ sequences from naïve T cells in the thymus and mature T cells of spleen.
Featured Publications
IgH-V(D)J NGS-MRD Measurement Pre- and Early Post- Allo-Transplant Defines Very Low and Very High Risk ALL Patients
Blood | May, 2015Positive detection of minimal residual disease (MRD) by multichannel flow cytometry (MFC) prior to hematopoietic cell transplantation (HCT) of patients with ALL identifies patients at high risk for relapse, but many pre-HCT MFC-MRD negative patients also relapse, and the predictive power MFC-MRD early post-HCT is poor. To test whether the increased sensitivity of next-generation sequencing (NGS-MRD) better identifies pre- and post-HCT relapse risk, we performed IgH V(D)J NGS-MRD on 56 patients with B-cell ALL enrolled in Children's Oncology Group (COG) trial ASCT0431. NGS-MRD predicted relapse and survival more accurately than MFC-MRD (p<0.0001), especially in the MRD negative cohort (relapse 0% vs. 16%; p=0.02, 2yr OS 96% vs. 77%; p=0.003).
VIEW
Next-generation sequencing-based detection of circulating tumour DNA after allogeneic stem cell transplantation for lymphoma
British Journal of Haematology | December, 2016Next-generation sequencing (NGS)-based circulating tumour DNA (ctDNA) detection is a promising monitoring tool for lymphoid malignancies. We evaluated whether the presence of ctDNA was associated with outcome after allogeneic haematopoietic stem cell transplantation (HSCT) in lymphoma patients. We studied 88 patients drawn from a phase 3 clinical trial of reduced-intensity conditioning HSCT in lymphoma. Conventional restaging and collection of peripheral blood samples occurred at pre-specified time points before and after HSCT and were assayed for ctDNA by sequencing of the immunoglobulin or T-cell receptor genes. Tumour clonotypes were identified in 87% of patients with adequate tumour samples.
VIEW
Immunoglobulin and T-cell Receptor Gene High-Throughput Sequencing Quantifies Minimal Residual Disease in Acute Lymphoblastic Leukemia and Predicts Post-Transplant Relapse and Survival
Biology of Blood and Marrow Transplantation |Minimal residual disease (MRD) quantification is an important predictor of outcome after treatment for acute lymphoblastic leukemia (ALL). Bone marrow ALL burden ≥ 10−4 after induction predicts subsequent relapse. Likewise, MRD ≥ 10−4 in bone marrow before initiation of conditioning for allogeneic (allo) hematopoietic cell transplantation (HCT) predicts transplantation failure. Current methods for MRD quantification in ALL are not sufficiently sensitive for use with peripheral blood specimens and have not been broadly implemented in the management of adults with ALL.
VIEW
Prognostic Value of Deep Sequencing Method for Minimal Residual Disease Detection in Multiple Myeloma
Blood | May, 2014We assessed the prognostic value of minimal residual disease (MRD) detection in multiple myeloma (MM) patients using a sequencing-based platform in bone marrow samples from 133 MM patients in at least very good partial response (VGPR) after front-line therapy. Deep sequencing was carried out in patients in whom a high-frequency myeloma clone was identified and MRD was assessed using the IGH-VDJH, IGH-DJH, and IGK assays. The results were contrasted with those of multiparametric flow cytometry (MFC) and allele-specific oligonucleotide polymerase chain reaction (ASO-PCR). The applicability of deep sequencing was 91%. Concordance between sequencing and MFC and ASO-PCR was 83% and 85%, respectively.
VIEW
Treatment With Carfilzomib-Lenalidomide-Dexamethasone With Lenalidomide Extension in Patients With Smoldering or Newly Diagnosed Multiple Myeloma
JAMA Oncology | September, 2015Importance: Carfilzomib-lenalidomide-dexamethasone therapy yields deep responses in patients with newly diagnosed multiple myeloma (NDMM). It is important to gain an understanding of this combination’s tolerability and impact on minimal residual disease (MRD) negativity because this end point has been associated with improved survival.
Objective: To assess the safety and efficacy of carfilzomib-lenalidomide-dexamethasone therapy in NDMM and high-risk smoldering multiple myeloma (SMM).
VIEW
Next-Generation Sequencing in Adult B Cell Acute Lymphoblastic Leukemia Patients
Biology of Blood and Marrow Transplantation | January, 2017We used next generation sequencing (NGS) of the immunoglobulin genes to evaluate residual disease in 153 specimens from 32 patients with adult B cell ALL enrolled in a single, multi-center study. The sequencing results were compared to multi-parameter flow cytometry (MFC) data in 66 specimens (25 patients) analyzed by both methods. There was a strong concordance (82%) between the methods in the qualitative determination of the presence of disease. However, in 17% of cases leukemia was detected by sequencing, but not by MFC. In 54 bone marrow (BM) and peripheral blood (PB) paired specimens, the burden of leukemia detected by NGS was lower in PB than BM, although still detectable in 68% of the 28 paired specimens with positive BM.
VIEW