Project description:This work shows that signaling-lymphocytic-activation-molecule-1 (SLAMF1), a co-stimulatory molecule and a microbial sensor, is expressed by normal CD19+/CD5+ B-lymphocytes. Its expression is lost in a subset of patients with chronic lymphocytic leukemia (CLL) characterized by an aggressive form of the disease, with shorter time to first treatment and overall survival. Silencing of SLAMF1 in the CLL-like Mec-1 cell line (constitutively SLAMF1+) modulated pathways connected to cell migration, cytoskeletal organization and intracellular vesicle formation/recirculation. Loss of SLAMF1 was associated to increased expression of CXCR4, CD38 and CD44, positively affecting chemotactic responses to CXCL12. Ligation of SLAMF1 with an agonistic monoclonal antibody promoted the autophagic flux, by increasing reactive oxygen species (ROS) accumulation and inducing phosphorylation of p38, JNK1/2 and bcl-2. The direct consequence was the assembly of the autophagy macro-complex that included SLAMF1, the scaffold protein Beclin1 and the enzyme Vps34. Consistently, SLAMF1-silenced cells or SLAMF1low primary CLL cells were resistant to autophagy-activating therapeutic agents, such as fludarabine or the BH3 mimetic ABT-737. These results indicate that loss of SLAMF1 expression modulates genetic pathways regulating chemotaxis and autophagy and potentially affecting drug responses, thus providing a likely explanation for the unfavorable clinical outcome experienced by this patient subset. Microarrays were performed comparing genetic signature of CLL-like Mec-1 cell line (constitutively SLAMF1+), transfected with a non-effective (scrambled) shRNA cassette (TR30013) used as control, and a Mec-1 variant generated silencing SLAMF1 gene using pGFP-V-RS construct for SLAMF1 shRNA (TG309422). For each cell line variants, grown in vitro in complete medium, three biological replicates were included in the chip.

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:SLAMF1/CD150 regulates chemotaxis, autophagy and therapy responses in chronic lymphocytic leukemia patients

Project description:Tcl1 tg mice develop a chronic lymphocytic leukemia (CLL) -like disease. To investigate the contribution of the adhesion molecule CD44 to CLL pathophysiology, we developed a CD19Cre CD44flox/flox Tcl1 tg mouse with a B cell specific CD44 deficiency (CD44ΔB Tcl1 tg). We used the Clariom S mouse microarray from Affymetrix to investigate transcriptional differeneces between Tcl1 tg and CD44ΔB Tcl1 tg mice

Project description:SPC2996 is a novel locked nucleic acid (LNA) phosphorothioate antisense molecule targeting the mRNA of the Bcl-2 oncoprotein. We investigated the mechanism of action of SPC2996 and the basis for its clinically observed immunostimulatory effects in chronic lymphocytic leukemia (CLL). Patients with relapsed CLL were treated with a maximum of six doses of SPC2996 (0.2-6mg/ kg) in a multicenter phase I trial. Microarray-based transcriptional profiling of circulating CLL cells was carried out before and after the first infusion of SPC2996 in eighteen patients. We used microarrays to characterize global gene expression changes of circulating CLL cells in response to SPC2996 infusion in 18 patients Key word : Response to therapeutic agent We performed microarray-based gene expression profiling in serial peripheral blood samples from 18 individual CLL patients before and after treatment with SPC2996

Project description:Genomic profiles of CLL (Chronic Lymphocytic Leukemia) patients. 11 CLL patients were selected for detection of genomic aberrations, 8 patients with atypical CLL and 3 patients with typical CLL.

Project description:SPC2996 is a novel locked nucleic acid (LNA) phosphorothioate antisense molecule targeting the mRNA of the Bcl-2 oncoprotein. We investigated the mechanism of action of SPC2996 and the basis for its clinically observed immunostimulatory effects in chronic lymphocytic leukemia (CLL). Patients with relapsed CLL were treated with a maximum of six doses of SPC2996 (0.2-6mg/ kg) in a multicenter phase I trial. Microarray-based transcriptional profiling of circulating CLL cells was carried out before and after the first infusion of SPC2996 in eighteen patients. We used microarrays to characterize global gene expression changes of circulating CLL cells in response to SPC2996 infusion in 18 patients Key word : Response to therapeutic agent

Project description:Chronic lymphocytic leukemia (CLL) is characterized by the accumulation of malignant CD5+ B lymphocytes (CLL cells) in the peripheral blood, and their progressive infiltration in lymphoid organs. MMP-9 plays an important role in cell migration and survival, contributes to CLL pathogenesis by proteolytic and non-proteolytic mechanisms and may constitutive a therapeutic target. We used Affimetrix microarray technology to characterize the global gene expression profile of chronic lymphocytic leukemia (CLL) cells upon MMP-9 transfection. The aim was to establish whether MMP-9 regulates gene expression and to identify new therapeutic targets in CLL.

Project description:miRNAseq of chronic lymphocytic leukaemia (CLL) subsets comprising of Unmutated CLL and Mutated CLL. Mutated CLL cases were further subdivided based on B cell receptor signalling capacity.

Project description:RNAseq of chronic lymphocytic leukaemia (CLL) subsets comprising of Unmutated CLL and Mutated CLL. Mutated CLL cases were further subdivided based on B cell receptor signalling capacity.