Constitutive NF-κB and NFAT activation leads to stimulation of the BLyS survival pathway in aggressive B-cell lymphomas

AbstractB-lymphocyte stimulator (BLyS), a relatively recently recognized member of the tumor necrosis factor ligand family (TNF), is a potent cell-survival factor expressed in many hematopoietic cells. BLyS binds to 3 TNF-R receptors, TACI, BCMA, BAFF-R, to regulate B-cell survival, differentiation, and proliferation. The mechanisms involved in BLYS gene expression and regulation are still incompletely understood. In this study, we examined BLYS gene expression, function, and regulation in B-cell non-Hodgkin lymphoma (NHL-B) cells. Our studies indicate that BLyS is constitutively expressed in aggressive NHL-B cells, including large B-cell lymphoma (LBCL) and mantle cell lymphoma (MCL), playing an important role in the survival and proliferation of malignant B cells. We found that 2 important transcription factors, NF-κB and NFAT, are involved in regulating BLyS expression through at least one NF-κB and 2 NFAT binding sites in the BLYS promoter. We also provide evidence suggesting that the constitutive activation of NF-κB and BLyS in NHL-B cells forms a positive feedback loop associated with lymphoma cell survival and proliferation. Our findings indicate that constitutive NF-κB and NFAT activations are crucial transcriptional regulators of the BLyS survival pathway in malignant B cells that could be therapeutic targets in aggressive NHL-B.

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Defining The Role Of Microrna-146a In B Cell Lymphomagenesis

Blood ◽

10.1182/blood.v122.21.3805.3805 ◽

2013 ◽

Vol 122 (21) ◽

pp. 3805-3805

Author(s):

Jorge Contreras ◽

Jayanth Kumar Palanichamy ◽

Tiffany Tran ◽

Dinesh S. Rao

Keyword(s):

Gene Expression ◽

B Cells ◽

B Cell ◽

Conflicts Of Interest ◽

Cell Lymphoma ◽

Expression Patterns ◽

Significant Proportion ◽

B Cell Lymphoma ◽

Gene Expression Patterns

Abstract Diffuse large B cell lymphoma (DLBCL) is one of the most common Non-Hodgkin lymphomas among adults. It is a heterogeneous disease characterized by multiple mutations and translocations. Gene expression profiling studies have revealed several characteristic gene expression patterns, with two main patterns emerging, namely Germinal Center(GC) type, and Activated B Cell (ABC) type. ABC-type DLBCL shows gene expression patterns that resemble activated B-cells, with increased expression of anti-apoptotic, and pro-proliferative genes. Critically, upregulation of the NF-κB the pathway is a hallmark of ABC-type DLBCL and has been shown to be necessary for survival, and is caused by several different mutations at different levels within the pathway. Recent work has revealed the critical importance of a new class of small RNA molecules, namely microRNAs, in gene regulation. Of these, microRNA-146a (miR-146a) was discovered as an NF-κB induced microRNA that plays a role as a negative feedback regulator of this pathway by targeting adaptor proteins. To further characterize miR-146a, mice deficient for this miRNA were created, and were found to develop lymphadenopathy, splenomegaly, and myeloid proliferation. As expected, immune cells in these mice have an upregulated NF-κB pathway and many of the phenotypes can be ameliorated by inhibition of the NF-κB pathway. Importantly, a significant proportion of the animals develop B-cell lymphoma at older ages. In this study, we examined the role of miR-146a in the development of malignancy in B-cells. To accelerate the role of miR-146a in tumor formation we overlaid the miR-146a deficient allele onto the Eμ-Myc like mouse model. Eμ-Myc mice develop tumors on average by 14weeks of age. The transgenic status of animals was verified by genotyping, RNA and protein expression analyses. miR-146a sufficient and deficient animals on the Eμ-Myc background were followed for tumor latency by peripheral blood analysis and careful physical examination. Based on approved humane criteria for animal discomfort, animals were sacrificed and hematopoietic tissue was harvested for analysis. Mice deficient for miR-146a had a statistically reduced survival in comparison with miR-146a sufficient animals with a p-value of .0098 (Kaplan Meir survival analysis). Complete Blood Count of animals at time of death revealed an increase leukemia presentation in the miR-146a deficient background. FACS analysis of tumor tissue from both groups revealed an increase in the number of IgM positive tumors in the miR-146a-deficient background indicating skewing towards more mature B cell neoplasms when miR-146a is lacking. Lineage analysis of tumors verified them to be of B cell origin although a subset of miR-146a sufficient tumors had higher numbers of infiltrating myeloid cells compared to deficient animals. Furthermore, histologic analysis of hematopoietic organs showed that while infiltration remained similar in kidneys and liver, more spleens in the miR-146a deficient background tended to be less involved. Our extensive histopathologic and immunophenotypic analyses indicate that miR-146a deficiency drives a more aggressive malignant phenotype in the B-cell lineage. In keeping with this, our profiling studies of human DLBCL suggest that a subset of DLBCL show decreased expression of miR-146a. We are currently examining the status of NF-κB in the murine tumors and using high throughput sequencing approaches to delineate gene expression differences between miR-146a sufficient and deficient tumors. We anticipate the discovery of novel gene targets of miR-146a and expect that these studies will lead to improved diagnostic and therapeutic options for patients of B-cell malignancies. Disclosures: No relevant conflicts of interest to declare.

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Lymphomas

10.2310/im.1246 ◽

2017 ◽

Author(s):

Kieron Dunleavy ◽

Wyndham H Wilson

Keyword(s):

Gene Expression ◽

Follicular Lymphoma ◽

B Cell ◽

Hodgkin Lymphoma ◽

Group Performance ◽

Cell Lymphoma ◽

International Prognostic Index ◽

Prognostic Index ◽

B Cell Lymphoma ◽

Non Hodgkin Lymphoma

Lymphoma is the fifth most common type of cancer in the United States, with 74,490 new cases estimated in 2009. Approximately 15% of patients with lymphoma have Hodgkin lymphoma; the remainder have one of the non-Hodgkin lymphomas. The incidence of non-Hodgkin lymphoma has increased steadily over recent decades. This chapter reviews the epidemiology, classification, clinical features, pathology, diagnostic evaluation, staging and prognosis, and treatment of Hodgkin and non-Hodgkin lymphoma. Other topics discussed include the acute and chronic effects of therapy for Hodgkin disease, as well as the subtypes of non-Hodgkin lymphomas, including indolent B cell lymphoma, follicular lymphoma, small lymphocytic lymphoma, mantle cell lymphoma, marginal-zone lymphoma, diffuse large B cell lymphoma (DLBCL), primary central nervous system lymphoma (PCNSL), Burkitt lymphoma, and HIV-related non-Hodgkin lymphoma. Figures illustrate the cellular appearance of Hodgkin lymphoma subtypes and DLBCL, diagnosis of DLBCL subtypes by gene expression, computed tomography and plain chest film in primary mediastinal cell lymphoma, MRI of the brain in PCNSL, and gene expression and gene expression predictors of survival among patients with DLBCL treated with rituximab, cyclophosphamide, hydroxydaunorubicin, vincristine [Oncovin], and prednisone (R-CHOP). Tables describe the Ann Arbor classification and the Cotswold modification for staging of lymphoma; the International Prognostic Score for advanced Hodgkin lymphoma; the World Health Organization classification of hematopoietic neoplasms; chromosomal translocations in non-Hodgkin lymphoma; the Eastern Cooperative Oncology Group performance scale; the International Prognostic Index for aggressive non-Hodgkin lymphoma; and the Follicular Lymphoma International Prognostic Index. This chapter has 185 references. This review contains 9 tables, 7 figures and 185 references

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Lack of Increased Clinical Efficacy When Interleukin-12 Is Added to Rituximab in B-Cell Lymphoma Patients Is Related to Inadequate Delivery of the Cytokine to the Sites of Lymphoma.

Blood ◽

10.1182/blood.v104.11.1397.1397 ◽

2004 ◽

Vol 104 (11) ◽

pp. 1397-1397

Author(s):

Stephen M. Ansell ◽

Deanna M. Grote ◽

Thomas E. Witzig ◽

Anne J. Novak

Keyword(s):

Gene Expression ◽

Lymph Nodes ◽

B Cell ◽

Hodgkin Lymphoma ◽

Peripheral Blood ◽

Phase Ii Study ◽

Cell Lymphoma ◽

B Cell Lymphoma ◽

Interleukin 12 ◽

Non Hodgkin Lymphoma

Abstract Rituximab is a chimeric murine/human monoclonal antibody that binds to CD20 on B-lymphocytes. Binding of the Fab domain to B-cells directly induces apoptosis, while the Fc domain recruits immune effector functions to mediate cell lysis. Because rituximab therapy alone does not result in durable responses for all patients, combination therapies have been explored. We have previously shown in a phase I study that interleukin-12 (IL-12), which facilitates cytolytic T-cell responses and enhances the lytic activity of NK cells, can be safely combined with rituximab and that IL-12 significantly upregulated gamma interferon, CXCL10 (inducible protein-10) and NK cell activity in the peripheral blood. To confirm whether IL-12 could augment the immune mediated cell lysis induced by rituximab, a subsequent randomized phase II study of the combination was performed in patients with B-cell lymphoma. While the combination of IL-12 and rituximab was well tolerated with acceptable toxicity, only moderate disease activity was seen and the response rate to the combination was similar to that seen with rituximab alone. Additionally, the sequential administration of IL-12 at the time of disease progression after treatment with rituximab did not result in any clinical responses. This study was therefore performed to determine potential biologic reasons for the lack of increased clinical efficacy when IL-12 was added to rituximab therapy in patients with B-cell non-Hodgkin lymphoma. Of the 52 patients treated on the phase II study, 8 patients had matched tumor biopsies and peripheral blood specimens obtained prior to therapy and again 2 weeks after treatment was started. Six of the patients were receiving IL-12 plus rituximab at the time the specimens were obtained while 2 were receiving rituximab alone. Gene expression array analysis using the Affymetrix U133 plus chip was performed on RNA isolated from cells from involved lymph nodes and from peripheral blood mononuclear cells. Specimens from the peripheral blood of patients who received IL-12 in combination with rituximab showed a greater than 5-fold increase in the expression of multiple genes known to be upregulated by IL-12 signaling including interferon gamma, CXCL10, IFIT2 and 4 (interferon-induced protein with tetratricopeptide repeats 2 and 4), IL-8 and CXCL2 (macrophage inflammatory protein-2). These increases in gene expression were not seen in the peripheral blood of patients who received rituximab alone. Furthermore, the significant changes seen in cells obtained from the peripheral blood were not seen in cells obtained from lymph nodes involved by lymphoma, despite the samples being obtained from the same patient on the same day. In the tumor specimens, the changes in gene expression involved none of the genes downstream of IL-12 signaling. Instead, many of the upregulated genes were associated with cell cycle and spindle checkpoint proteins suggesting ongoing tumor cell proliferation. In conclusion, while IL-12 significantly upregulated gene expression in the peripheral blood, the same changes were not seen in the tumor. This would suggest that systemically administered IL-12 may not be effectively delivered to the site of tumor involvement. This finding may explain the lack of additional clinical benefit when IL-12 was added to rituximab as therapy for patients with non-Hodgkin lymphoma.

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Lymphdx: A Custom Microarray for Molecular Diagnosis and Prognosis in Non-Hodgkin Lymphoma.

Blood ◽

10.1182/blood.v104.11.701.701 ◽

2004 ◽

Vol 104 (11) ◽

pp. 701-701 ◽

Cited By ~ 1

Author(s):

Sandeep S. Dave ◽

G. Wright ◽

B. Tan ◽

A. Rosenwald ◽

W. C. Chan ◽

...

Keyword(s):

Gene Expression ◽

Overall Survival ◽

B Cell ◽

Hodgkin Lymphoma ◽

Molecular Diagnosis ◽

Cell Lymphoma ◽

Diagnostic Algorithm ◽

B Cell Lymphoma ◽

Response To Therapy ◽

Non Hodgkin Lymphoma

Abstract Clinical management differs significantly for the various types of non-Hodgkin lymphoma (NHL), and the diagnosis of these lymphomas can be challenging in some cases. Further, existing NHL categories include subgroups that can differ substantially in gene expression, response to therapy and overall survival. We have created a custom oligonucleotide microarray, named LymphDx, which could prove clinically useful for molecular diagnosis and outcome prediction in NHL. Biopsy specimens were obtained from 559 patients with a variety of lymphomas and lymphoproliferative conditions. Gene expression profiles of these samples were obtained using Affymetrix U133 A and B microarrays. The 2653 genes on LymphDx were chosen to include:(1)Genes most differentially expressed among NHL types based on Affymetrix U133 or Lymphochip microarrays (2)Genes predicting length of survival in diffuse large B cell lymphoma(DLBCL), follicular lymphoma(FL) and mantle cell lymphoma(MCL) (3)Genes encoded in the EBV and HHV-8 viral genomes (4)Genes encoding all known surface markers, kinases, cytokines and their receptors, as well as oncogenes, tumor suppressors, and other genes relevant to lymphoma. The LymphDx microarray was used to profile gene expression in 434 biopsy samples. These data were used to create a diagnostic algorithm that can distinguish various NHL types and benign follicular hyperplasia(FH) based on gene expression. The algorithm classifies a sample into one of the following categories: Burkitt’s lymphoma(BL), DLBCL, FL, MCL, small lymphocytic lymphoma(SLL) or FH. The algorithm further distinguishes the 3 recognized DLBCL subgroups: germinal center B cell-like, activated B cell-like or primary mediastinal lymphoma. Using a leave one out, cross validation strategy, the algorithm was found to agree well with the pathology diagnosis (see Figure). Some samples were deemed unclassified when their gene expression did not adequately match with that of any of the NHL categories. For a few samples, the gene expression-based diagnosis and the pathology diagnosis were discordant. Pathology review showed that two NHL types coexisted (eg FL and DLBCL) in many of these cases, potentially explaining the results of the diagnostic algorithm. LymphDx could also reliably predict the overall survival of patients with DLBCL, FL and MCL. Prospective evaluation of the LymphDx microarray is warranted since it could be used to provide objective molecular diagnostic, and prognostic information for patients with NHL. Figure Figure

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Expression of BLyS and its receptors in B-cell non-Hodgkin lymphoma: correlation with disease activity and patient outcome

Blood ◽

10.1182/blood-2004-02-0762 ◽

2004 ◽

Vol 104 (8) ◽

pp. 2247-2253 ◽

Cited By ~ 159

Author(s):

Anne J. Novak ◽

Deanna M. Grote ◽

Mary Stenson ◽

Steven C. Ziesmer ◽

Thomas E. Witzig ◽

...

Keyword(s):

B Cells ◽

B Cell ◽

Hodgkin Lymphoma ◽

De Novo ◽

Cell Lymphoma ◽

B Cell Lymphoma ◽

Lactic Dehydrogenase ◽

Response To Therapy ◽

Non Hodgkin Lymphoma ◽

Important Therapeutic Target

Abstract BLyS, recently shown to be critical for survival of normal B cells, has been found to be elevated in a number of immune disease models. A role for BLyS in the survival of malignant B cells has also been revealed and we therefore sought to identify a role for BLyS and its receptors in non-Hodgkin lymphoma (NHL). We found that tumor cells from all NHL histologic subtypes expressed one or more of 3 known receptors (BCMA, TACI, and BAFF-R) for BLyS; however, the pattern of expression was variable. We provide evidence that BLyS is expressed in tumors from patients with NHL and that BLyS levels increase as tumors transform to a more aggressive phenotype. Additionally, we provide evidence that serum BLyS levels are elevated in a subgroup of patients with NHL. In patients with de novo large B-cell lymphoma, a high BLyS level correlated with a poorer median overall survival, the presence of constitutional symptoms, and elevated values of lactic dehydrogenase. When BLyS levels were correlated with response to therapy in all patients, responding patients had a significantly lower BLyS level than those with progressive disease. In summary, we found that BLyS and its receptors represent a potentially important therapeutic target in B-cell lymphoma.

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Lymphomas

10.2310/tywc.1246 ◽

2018 ◽

Author(s):

Kieron Dunleavy ◽

Wyndham H Wilson

Keyword(s):

Gene Expression ◽

Follicular Lymphoma ◽

B Cell ◽

Hodgkin Lymphoma ◽

Group Performance ◽

Cell Lymphoma ◽

International Prognostic Index ◽

Prognostic Index ◽

B Cell Lymphoma ◽

Non Hodgkin Lymphoma

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Gene Expression Profiling Comparison between the Major Mature B-Cell Neoplasms and Their Normal Cellular and Anatomic Counterparts: Identification of Candidate Genes Potentially Involved in Lymphomagenesis.

Blood ◽

10.1182/blood.v108.11.2375.2375 ◽

2006 ◽

Vol 108 (11) ◽

pp. 2375-2375

Author(s):

Nicolas Blin ◽

Celine Bossard ◽

Jean-Luc Harousseau ◽

Catherine Charbonnel ◽

Wilfried Gouraud ◽

...

Keyword(s):

Gene Expression ◽

Cell Proliferation ◽

B Cells ◽

B Cell ◽

Gene Expression Profiling ◽

Germinal Center ◽

Expression Profiling ◽

Marginal Zone ◽

Cell Lymphoma ◽

B Cell Lymphoma

Abstract Gene expression profiling has provided new insights into the understanding of mature B cell neoplasms by relating each one to its normal counterpart, so that they can be to some extent classified according to the corresponding normal B-cell stage. Thus, diffuse large B cell (DLBCL) and follicular lymphoma (FL) have been related to a germinal center precursor whereas mantle cell lymphoma (MCL) or marginal zone lymphoma (MZL) are more likely to derive from naïve and memory B cell, respectively. However, little is still known about the physiopathology of B-cell lymphomas and particularly the deregulated pathways involved in their oncogenesis. To further investigate that point, we performed laser capture microdissection (LCM) of the three anatomic lymphoid compartments (i.e germinal center, mantle zone and marginal zone) taken from nine normal spleens and lymph nodes and magnetic cell separation of the four normal B cell subpopulations (i.e naïve B cells, centroblasts, centrocytes and memory B cells) purified from twelve normal tonsils for gene expression profiling by cDNA microarray. These molecular profiles have been compared to those of the four most frequent mature B cell neoplasms in adult (i.e DLBCL, FL, MZL and MCL), each one isolated from five previously untreated patients. Unsupervised analysis by hierarchical clustering of the normal anatomic and cellular populations could discriminate the germinal from the extra-germinal populations by genes involved in cell proliferation (e.g. E2F5, CCNB2, BUB1B and AURKB), DNA repair (e.g. PCNA and EXO1), cytokine secretion (e.g. IL8, IL10RB, IL4R and TGFBI) and apoptosis (e.g. CASP8, CASP10, BCL2 and FAS). Supervised analysis of the comparison between each B-cell lymphoma and its anatomic and cellular physiologic equivalent identified molecular deregulations concerning several genes’families characterizing the different histologic subtypes. Genes associated with cellular adhesion and ubiquitin cycle were significantly up-regulated in MCL (FCGBP, ITGAE, USP7, VCAM1) and MZL (CTGF, CDH1, ITGAE) whereas germinal center derived lymphomas (i.e. DLBCL and FL) mainly showed up-regulation of genes involved in cell proliferation (TNFRSF17, SEPT8) and immune response (FCER1G, XBP1, IL1RN). Few deregulated genes were common to the four subtypes, principally associated with cell proliferation (CYR61, GPNMB), cytosqueleton organization (EPB41L3) and carbohydrates metabolism (GNPDA1), suggesting potential similar oncogenic pathways. Those preliminary results are compatible with both subtype-specific and overall mechanisms of lympomagenesis and should be verified in a wider range of samples to confirm the oncogenic events involved in this heterogeneous disease.

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LITAF, a BCL6 Target Gene, Regulates Autophagia in B Cells and Is Essential for T-Cell Dependent Humoral Responses

Blood ◽

10.1182/blood.v118.21.1391.1391 ◽

2011 ◽

Vol 118 (21) ◽

pp. 1391-1391 ◽

Cited By ~ 1

Author(s):

Cristina Bertolo ◽

Raquel Malumbres ◽

Ainara Sagardoy ◽

Eloy F Robles ◽

Jose I Martinez-Ferrandis ◽

...

Keyword(s):

Gene Expression ◽

T Cell ◽

B Cells ◽

Immune Responses ◽

B Cell ◽

B Lymphocytes ◽

Cell Lymphoma ◽

B Cell Lymphoma ◽

Lymphoma Cells ◽

Mhc Ii

Abstract Abstract 1391 LITAF was discovered as a p53-induced transcript that promoted TNFa secretion in monocytes in response to LPS. We previously reported that LITAF is inactivated by deletion or promoter hypermethylation in germinal center-derived B-cell lymphomas. However, the function of LITAF in B lymphocytes is unknown. Using gene expression analysis of isolated B-cell subpopulation and immunohistochemical studies of tonsil lymphoid follicles we found that LITAF is expressed in naïve B lymphocytes and is repressed within the germinal centers (GCs). Thus, LITAF showed an opposite expression to BCL6, an essential regulator of GC development and function. Likewise, expression of LITAF and BCL6 were inversely correlated in cell lines and biopsies from patients with B-cell lymphoma, further suggesting a link between LITAF and BCL6. ChIP-on-chip and ChIP-sequencing analyses of B cells coupled with luciferase reporter assays revealed that BCL6 repressed LITAF expression by binding to its promoter. Accordingly, BCL6 silencing with siRNAs or after exposure to a BCL6-inhibitor peptide increased LITAF expression, indicating that LITAF is transcriptionally repressed by BCL6 in GC B lymphocytes and in B-cell lymphoma cells. To initially elucidate the function of LITAF in B cells, gain-and-loss of function experiments were performed in different cellular models. LITAF expression was not related to TNFa secretion after LPS exposure, nor modulated cell proliferation or apoptosis in B cells. However, sustained expression of LITAF in B-cell lymphoma cells increased cell size, lysosome content and mitochondrial mass. Gene expression microarray studies defined a LITAF-related transcriptional signature containing genes involved in the regulation of endomembranes, vesicle trafficking and protein transport. Accordingly, immunofluorescence analysis co-localized LITAF with lysosomes and with autophagosomes expressing LC3, the mammalian homolog of yeast autophagy-related protein (Atg8), as well as with the lysosomal sorting-associated proteins NEDD4 and TSG101, both in normal CD19+ B lymphocytes and in B-cell lymphoma cells. In addition, LITAF expression induced autophagic activity in B cells, shown by an increase in the FL1/FL3 ratio after acridine orange staining and by converting LC3-I to LC3-II, which were more evident upon cell starvation. Together, these data suggest that LITAF may play a role in the processing of proteins in autophagosomes through regulating autophagy. To investigate LITAF function in vivo, we generated mice with targeted deletion of the Litaf gene in B lymphocytes by using the Cre-loxP system. Litaf -mb1-Cre (Litaf−/− ) mice developed healthy and showed normal distribution of hematopoietic cell subpopulations. However, Litaf−/− mice were unable to develop full T-cell dependent immune responses, presenting PNA-stained, Litaf-negative GCs that were absent or had marked reduction in size and number. Accordingly, reduced amounts of IgM, IgG1 and IgG3 antibodies as a consequence of abnormal class switch recombination (CSR) were detected in immunized mice. However, in experiments testing CSR in vitro, in which B cells are artificially activated in the absence of T cells, the amounts of IgM/IgG1/IgG3 did not differ between knock-out and control groups. Similarly, mouse immunization with a T-cell independent antigen did not induce differences in immunoglobulin production. Further studies of GCs in T-cell immunized Litaf−/− mice using an antibody for the Class II-associated invariant chain peptide (CLIP) revealed that the atrophic GCs in Litaf−/− mice showed strong CLIP expression in comparison to wild-type littermates. In normal immune responses, CLIP peptides bind to MHC class II molecules in endolysosomes, until they are displaced by the antigen, then releasing CLIP and allowing MHC II-antigen complexes to be transported to the cell membrane for T-cell presentation. The failure to develop appropriate immune responses together with the accumulation of CLIP peptides in Litaf -deficient mice indicate that Litaf is essential for adequate T-cell dependent immune responses in GC B lymphocytes, possibly through facilitating the presentation of the antigens to MHC II molecules in the endolysosomes. Once this process is assembled and the T-cell activated B lymphocytes enter the GCs, BCL6 represses LITAF to prevent additional interactions between B and T cells during BCR editing. Disclosures: No relevant conflicts of interest to declare.

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Normal Circulating B Cells Are Markedly Reduced in Follicular Lymphoma and Diffuse Large B Cell Lymphoma at Diagnosis

Blood ◽

10.1182/blood.v124.21.2970.2970 ◽

2014 ◽

Vol 124 (21) ◽

pp. 2970-2970

Author(s):

Massimo Geuna ◽

Bruna Riccardo ◽

Alessandro Cignetti ◽

Nathalie Santoro ◽

Angela Gueli ◽

...

Keyword(s):

B Cells ◽

B Cell ◽

B Lymphocyte ◽

Cell Lymphoma ◽

B Cell Lymphoma ◽

Absolute Number ◽

Response To Therapy ◽

Cell Compartment ◽

B Cell Precursors ◽

Normal Controls

Abstract Background. The role of normal lymphocytes in the development of malignancies is investigated with increasing interest, with particular focus on lymphoproliferative disorders. A few recent reports, including a large study from our group, have shown that the lymphocyte/monocyte ratio (LMR) is often altered in diffuse large B cell lymphoma (DLB-CL) and a reduced LMR at diagnosis is associated with a poor response to therapy and a marked reduction in the overall survival expectancy. Reduction of LMR is primarily due to decreased levels of circulating lymphocytes, although an increase of circulating monocytes may also concur in reducing the LMR value. The present study was undertaken to further characterize the lymphocyte subpopulations in DLB-CL and in the other germinal-center derived Follicular Lymphoma (FL). In particular, the aim was to investigate possible abnormalities of either B or T-lymphocytes that might be present in patients with DLB-CL or FL at disease onset. Patients and Methods. Peripheral blood (PB) samples were obtained at diagnosis from 23 DLB-CL and 15 FL without leukemic involvement; among them 11/23 DLB-CL and 12/15 FL did not display disease involvement also in their bone marrow (BM). In addition, 25 PB and 20 BM were obtained as controls from age matched healthy donors or from subjects undergoing diagnostic procedures without any evidence of hematological or solid malignancy. Multicolor flow cytometry (MFC) was used, to evaluate the PB distribution and the absolute value of the main cell categories, i.e.: CD3+ T cell, CD3-CD56+ NK cells, and CD19+CD20+ B cells; among these latter, the following subsets were investigated: transitional (CD38+high/CD24+high/IgD+/CD27-), naive (CD38+/CD24+/IgD+/CD27-), memory IgD+ (CD38-/+CD24+/IgD+/ CD27+), and memory IgD- (CD38-/CD24+high/IgD-/CD27+). Similarly, MFC was used to identify B-lymphocyte subsets in BM samples (B cell precursors as CD19+CD20-CD10+ and mature B cells as CD19+CD20+CD10-). Results. The absolute number of circulating B cells was significantly reduced in both FL (median 86 cell/ul) and DLB-CL (median 72 cell/ul) compared to normal age-matched controls (median 233 cells/ul), as detailed in the Figure 1. The low absolute number of circulating B cells did not correlate with a low LMR or with bone marrow involvement. Despite the generalized reduction in absolute number, the proportion of transitional and naïve B cell subsets was similar or slightly increased in B-NHL, while the percentage of memory B cell was deeply reduced in both FL and DLB-CL compared to normal controls. The amount of BM CD19+ B cells, evaluated as percentage on the whole lymphocyte population, was similar in both FL and DLBCL (15% and 15.9% respectively) and not significantly different from normal controls (18.9%). Interestingly, the percentage of B cell precursors (CD19+CD20-CD10+) within the B cell compartment was similar in FL and normal BM (50% vs 43.1%, p=ns), while it was marginally reduced in DLB-CL (23.7% vs 43.1%, p=ns). T and NK cells were not significantly different in DLB-CL and FL and in normal controls. Conclusions. Our data suggest that the homeostasis of normal B-cell compartment is impaired in FL and DLBCL, mainly at the peripheral level. The circulating memory B cells seem to be the B-cell subset affected in FL and DLB-LC. The mechanism underlying the reduction of circulating B lymphocyte number remains unknown. It might be hypothesized that FL and DLB-CL affect the microenvironment in which normal B cell differentiation occurs, resulting in the hampered production or increased elimination of differentiating B-cells. This hypothesis seems supported by the observation that the B cell population is not significantly altered in BM. Further study should be addressed to verify the impact of B-cell reduction on the long-term outcome of DLB-CL e FL and whether increasing circulating B-cells may improve the response to therapy. In addition the results here reported should be considered in relation with the prolonged B-cell impairment associated with the widely employed chemo-immunotherapy treatments for B-cell lymphoma. Figure 1. Absolute count values of total PB B lymphocyte in normal control (dottet bar), DLBCL (vertical line bar) and FL (diagonal line bar). Figure 1. Absolute count values of total PB B lymphocyte in normal control (dottet bar), DLBCL (vertical line bar) and FL (diagonal line bar). Disclosures No relevant conflicts of interest to declare.

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TET2 mutations in Diffuse Large B-Cell Lymphoma: The Role of TET2 in the Regulation of Methylation Patterns at TET2 Target Genes

Blood ◽

10.1182/blood.v118.21.1364.1364 ◽

2011 ◽

Vol 118 (21) ◽

pp. 1364-1364

Author(s):

Fazila Asmar ◽

Jesper Christensen ◽

Jens V Johansen ◽

Anders Blåbjerg ◽

Anja Pedersen ◽

...

Keyword(s):

Gene Expression ◽

B Cells ◽

B Cell ◽

Target Genes ◽

Cell Lymphoma ◽

B Cell Lymphoma ◽

Allelic Loss ◽

Global Methylation ◽

Cd34 Cells

Abstract Abstract 1364 Introduction: Cytosine methylation (mC) is a major DNA modification in higher eukaryotic genomes, which is involved in transcriptional silencing. A large amount of data has shown that patterns of DNA methylation are perturbed in hematological cancers including diffuse large B-cell lymphoma (DLBCL). The discovery that the TET hydroxylases convert mC to hydroxymethylcytosine (hmC) is a major break through for our understanding of how DNA methylation is deregulated. Multiple reports describe TET2 (Ten-Eleven Translocation 2) loss-of-function mutations in myeloid malignancies, and a recent study shows that TET2 inactivation perturbs both myeloid and lymphoid development in the mouse, and identifies TET2 mutations in ∼2% of human B-cell lymphoma (Quivoron et al, Cancer Cell 20, 1–14, 2011). Aims: In the present study our aims are to determine the frequency and clinical impact of TET2 mutations in DLBCL, to identify TET2 target genes in CD34+ cells, normal- and malignant B-cells, and evaluate the role of TET2 mutations on the methylation pattern at TET2 targets genes in normal and malignant hematopoiesis. Methods: DNA was isolated from fresh frozen DLBCL (n=110), normal CD34+ cells and B-cells, and a TET2 mutant DLBCL-cell line. Mutation scanning was performed by denaturing gradient gel electrophoresis (DGGE) and automated sequencing. Global methylation profiling was done by Illumina Infinium microarrays, methylation at individual genes by methylation specific melting curve analysis and pyrosequencing. Global mC and hmC patterns were determined by DNA immunoprecipitation and promoter array analysis in cell lines, B-cells and CD34+ cells. TET2 target genes were identified by ChIP followed by deep sequencing. Gene expression by Nimblegen custom made arrays and RT-qPCR. Results: We identified TET2 mutations in 15% of primary diffuse DLBCL, including missense mutation in the catalytic domain (n=8, 2 of which showed allelic loss), loss-of-function mutations (n=7, one of which showed allelic loss), and missense mutation outside the catalytic domain (n=1 with allelic loss). Somatic origin of these mutations was verified in 11 of the 16 cases where matched normal tissue was available. No difference in overall survival was observed between TET2mut and TET2wt cases (P=0.17). To a large extent, the TET2 targets genes identified by ChIP seq analysis were overlapping in CD34+ cells, normal- and malignant B-cells. Gene ontology analysis showed that TET2 target genes are mainly involved in DNA metabolism and repair, metabolic processes and cell cycle homeostasis. Global methylation in TET2mut and TET2wt cases and gene expression data are being analyzed in DLBCL samples. In addition, the distribution patterns of hmC and mC at TET2 target genes and the relation to gene expression is being analyzed in a TET2 mutant DLBCL cell line, normal B-cells and CD34+ cells. Conclusion and further analyses: Here, we show that TET2 mutations are frequent in DLBCL, and identify the TET2 target genes in CD34+ cells, and in normal and malignant B-cells. The role of TET2 mutations for global methylation and for the methylation patterns at TET2 target genes will be presented at the meeting. By investigating the clinical implications of TET2 mutations we aim to identify DLBCL subsets that may benefit from hypomethylating therapy. Furthermore, the identification of hypermethylated TET2 target genes will hopefully contribute to molecular understanding of how TET2 mutations induces malignant transformation. Disclosures: Christensen: EpiTherapeutics: cofounder of EpiTherapeutics and have shares and warrants in the company. Helin:EpiTherapeutics: cofounder of EpiTherapeutics and have shares and warrants in the company.

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