Project description:Little is known about the extent of intraclonal heterogeneity of CLL tumor cells. We performed longitudinal whole genome analysis in 22 CLL cases with evidence of clinical progression and/or clinical relapse post therapy. We demonstrate the striking and unanticipated presence of genetic clonal heterogeneity, with at least 27% of patients exhibiting clonal evolution and 18% showing evidence of multiple subclones. We show that CLL progression can occur with multiple genetic subclones evolving either in a linear or branching manner. The analysis reveals a shift in the relative dominance of subclones with the emergence of initially minor clones after therapy all of which were very resistant to secondary therapies. This study uncovers the clinical importance of tracking subclone diversity in CLL.

Project description:Bruton's tyrosine kinase (BTK) inhibitors are effective treatments for chronic lymphocytic leukemia (CLL) due to BTK’s role in B-cell survival and proliferation. Though effective, resistance occurs most commonly due to a BTKC481S mutation that inhibits drug binding. Here, we sought to understand the impact of co-occurring BTK resistance mutations with known CLL driver mutations and the differential transcriptomic behavior of BTK-resistant CLL subclones in six patients who acquired BTKC481S mutations. We utilize MAS-seq, a long-read scRNAseq technology, to increase transcript coverage and expand the set of mutations that can be used to link cells to tumor subclones.

Project description:Purpose: Only a limited number of genetic studies have been performed in primary central nervous system lymphomas (PCNSL), partly due to the rarity of the tumors and the very limited amount of available tissue. In this report, we present the first molecular characterization of copy-number abnormalities (CNA) of newly diagnosed PCNSL by array-based comparative genomic hybridization in formalin fixed paraffin embedded (FFPE) specimens and compare the results with matched frozen tumor specimens. Experimental design: We performed array-based comparative genomic hybridization (aCGH) in FFPE tissues from PCNSL. Results were compared with matched paired frozen tumors. Results: Our analysis confirmed the good to fair quality and reliability of the data generated from limited amounts of tumoral FFPE tissue. Overall, all PCNSL cases were characterized by highly complex karyotypes with a median of 23 copy-number abnormalities (CNA) per patient (range 17-47). Overall, 20 chromosomal regions were recurrently found in more than 40% of cases. Deletions of 6p21, 6q, 9p21.3 and gain of 12q12-q24.33 were the commonest CNA. Other minimal affected regions were defined, and novel recurrent CNAs affecting single genes were identified in 3q26.32 (TBL1XR1) and 8q12.1 (TOX). Conclusions: The results obtained are encouraging. Larger archival tissue collections can now be analyzed in order to complement the still fragmented knowledge we have of the genetic basis of the PCNSL. We included samples from 7 PCNSL patients. In 6 out of these 7 PCNSL patients (cases B – G), aCGH experiments were performed in DNA samples obtained from both snap-frozen and FFPE tissues for assay quality comparative purposes. In the remaining sample (case A), only frozen sample was analyzed.

Project description:Controversial data have been reported on the prognostic value of C-X-C motif chemokine receptor 4 (CXCR4) in chronic lymphocytic leukemia (CLL). This prospective, single-center, observational study aimed to evaluate the role of CXCR4 in the pathophysiology of CLL and its prognostic role. A total of 158 patients of CLL were enrolled, and CXCR4 expression on CLL cells was detected by flow cytometry (FCM) at initial diagnosis. The patients were divided into 2 groups according to the CXCR4 mean fluorescence intensity (MFI) median. Also, four patient specimens from the CXCR4low and CXCR4high groups were selected for whole transcriptome sequencing. The progression-free survival (PFS) of CLL patients in the CXCR4high group was significantly shorter than the CXCR4low group, with a median follow-up time of 27 months (log-rank P < 0.001). Moreover, CXCR4 overexpression (MFI > 3376) was an independent marker of poor PFS in CLL patients (P < 0.001). Analysis of whole transcriptome sequencing results revealed that CXCR4 plays an important role in the migration of CLL. Collectively, CXCR4 expression levels on leukemia cells can be detected rapidly by FCM. CXCR4 overexpression was significantly associated with poorer prognosis in CLL patients within a shorter follow-up time.

Project description:B cell chronic lymphocytic leukemia - A model with immune response Seema Nanda 1, , Lisette dePillis 2, and Ami Radunskaya 3, 1. Tata Institute of Fundamental Research, Centre for Applicable Mathematics, Bangalore 560065, India 2. Department of Mathematics, Harvey Mudd College, Claremont, CA 91711 3. Department of Mathematics, Pomona College, Claremont, CA, 91711, United States Abstract B cell chronic lymphocytic leukemia (B-CLL) is known to have substantial clinical heterogeneity. There is no cure, but treatments allow for disease management. However, the wide range of clinical courses experienced by B-CLL patients makes prognosis and hence treatment a significant challenge. In an attempt to study disease progression across different patients via a unified yet flexible approach, we present a mathematical model of B-CLL with immune response, that can capture both rapid and slow disease progression. This model includes four different cell populations in the peripheral blood of humans: B-CLL cells, NK cells, cytotoxic T cells and helper T cells. We analyze existing data in the medical literature, determine ranges of values for parameters of the model, and compare our model outcomes to clinical patient data. The goal of this work is to provide a tool that may shed light on factors affecting the course of disease progression in patients. This modeling tool can serve as a foundation upon which future treatments can be based. Keywords: NK cell, chronic lymphocytic leukemia, mathematical model, T cell., B-CLL.

Project description:Notwithstanding advances in the prognostication of chronic lymphocytic leukemia (CLL), it remains challenging to distinguish between patients with favorable and unfavorable treatment-free survival (TFS). Additionally, the downstream protein correlates of well-known molecular features of CLL are not always clear. To address this, we performed large-scale, unbiased characterization of global intracellular protein expression in a cohort of 40 CLL cases (patients with time to first treatment [TTFT] ≤24 months of sampling) and 40 age- and sex-matched CLL controls (patients with TTFT >24 months since sampling). Expression of 3268 proteins was quantified in the cohort. IGHV mutational status and trisomy 12 were most impactful on the CLL proteome. Intriguingly, comparing our results to three recently performed CLL mass-spectrometry screens, we identified four proteins that are strongly and consistently associated with IGHV mutational status: ZAP70, LMNA, FTL and FTH1. Additionally, we found that high intracellular protein levels of THEMIS2, a signaling protein acting downstream of the B-cell receptor, was significantly associated with short TTFT, independently of IGHV and TP53 mutational status (HR 2.47 [95%CI 1.54-3.95], P<0.01). This association was validated on the mRNA and protein level by qPCR and ELISA, respectivelly. Lastly, analysis of an independently generated CLL mass-spectrometry dataset verified the association between THEMIS2 expression and TFS (high THEMIS2, median TFS 4 months, versus low THEMIS2, median TFS not reached, P<0.0001)3. In conclusion, we present a comprehensive characterization of the proteome of untreated CLL. Of note, we identify elevated gene and protein expression of THEMIS2 as putative biomarker of inferior TTFT.

Project description:The clinical course of patients with chronic lymphocytic leukemia (CLL) is heterogeneous. Several prognostic factors have been identified that can stratify patients into groups that differ in their relative tendency for disease progression and/or survival. Here, we pursued a subnetwork-based analysis of gene expression profiles to discriminate between groups of patients with disparate risks for CLL progression. From an initial cohort of 130 patients, we identified 38 prognostic subnetworks that could predict the relative risk for disease progression requiring therapy from the time of sample collection, more accurately than established markers. The prognostic power of these subnetworks then was validated on two other cohorts of patients. We noted reduced divergence in gene expression between leukemia cells of CLL patients classified at diagnosis with aggressive versus indolent disease over time. The predictive subnetworks vary in levels of expression over time but exhibit increased similarity at later timepoints prior to therapy, suggesting that degenerate pathways apparently converge into common pathways that are associated with disease progression. As such, these results have implications for understanding cancer evolution and for the development of novel treatment strategies for patients with CLL. Leukemia cells were isolated from blood samples of CLL patients enrolled in the MILE study who had not received prior therapy for CLL, as per the MILE protocol22. Expression data were gathered from samples found to have a CLL cell population with greater than 90% CD5+CD19+, as accessed via flow cytometry. Total RNA was isolated and hybridized to Affymetrix HG-U133+2 GeneChips. This study is about the time to treatment, ie., prognosis instead of diagnosis.

Project description:In multiple myeloma (MM), endothelial progenitor cells (EPCs) regulate tumor angiogenesis and disease progression. EPCs from 16 newly diagnosed patients with advanced MM were examined for genomic instability by aCGH to assess chromosomal gains and losses. Data were compared to aCGH results from corresponding CD138+ tumor plasma cells from these patients.

Project description:Here we measured genome-wide DNA methylation in patients with chronic lymphocytic leukemia as it provides an opportunity to capture the emergence of altered methylation landscapes as well as track their dynamics over disease progression including after treatment. Specifically, our cohort includes 21 CLL cases with up to six different time points, 20 precursor states of monoclonal B cell lymphocytes (MBL) and 5 matched samples from MBL and CLL states of the same patients. We find that across all CLL cases, a highly aberrant methylation state was present consistently already at the first time point and maintained with remarkable stability over disease progression. To improve our resolution and address heterogeneity we sequenced the methylome of single cells from CD5 positive and negative naïve and memory B cells as well as unsorted B cells and CLL cells. Methylation levels were highly similar within groups pointing to a rather homogeneous population and contrasted by pronounced differences between naïve and memory B cells that do not distinguish CD5 positive and negative subgroups. Our 20 patients with MBL further confirmed the early emergence of this landscape and surprisingly, the chemotherapy did not have a notable impact on the altered methylome despite a strong depletion of white blood cells.

Project description:The clinical course of patients with chronic lymphocytic leukemia (CLL) is heterogeneous. Several prognostic factors have been identified that can stratify patients into groups that differ in their relative tendency for disease progression and/or survival. Here, we pursued a subnetwork-based analysis of gene expression profiles to discriminate between groups of patients with disparate risks for CLL progression. From an initial cohort of 130 patients, we identified 38 prognostic subnetworks that could predict the relative risk for disease progression requiring therapy from the time of sample collection, more accurately than established markers. The prognostic power of these subnetworks then was validated on two other cohorts of patients. We noted reduced divergence in gene expression between leukemia cells of CLL patients classified at diagnosis with aggressive versus indolent disease over time. The predictive subnetworks vary in levels of expression over time but exhibit increased similarity at later timepoints prior to therapy, suggesting that degenerate pathways apparently converge into common pathways that are associated with disease progression. As such, these results have implications for understanding cancer evolution and for the development of novel treatment strategies for patients with CLL.