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ABSTRACT: Diffuse large B-cell lymphoma (DLBCL) is the most common type of non-Hodgkin lymphoma, and the role of SYK in its pathogenesis is not completely understood. Using tissue microarray, we demonstrated for the first time that SYK protein is activated in 27 of 61 (44%) primary human DLBCL tissues. Among DLBCL cell lines, 7 were sensitive and 3 were resistant to a highly specific SYK inhibitor, PRT060318. In sensitive DLBCL cells, SYK inhibition blocked the G(1)-S transition and caused cell-cycle arrest. This effect was reproduced by genetic reduction of SYK using siRNA. A detailed analysis of the BCR signaling pathways revealed that the consequence of SYK inhibition on PLCγ2 and AKT, as opposed to ERK1/2, was responsible for cell-cycle arrest. Genetic knock-down of these key molecules decelerated the proliferation of lymphoma cells. In addition, BCR signaling can be blocked by PRT060318 in primary lymphoma cells. Together, these findings provide insights into cellular pathways required for lymphoma cell growth and support the rationale for considering SYK inhibition as a potentially useful therapy for DLBCL. The results further suggest the possibility of using PLCγ2 and AKT as biomarkers to predict therapeutic response in prospective clinical trials of specific SYK inhibitors.
Blood 12/2011; 118(24):6342-52. · 9.90 Impact Factor
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ABSTRACT: The molecular basis of B cell receptor (BCR)-induced apoptosis during the negative selection of immature B cells is largely unknown. We use transitional immature B cells that are highly susceptible to BCR-induced apoptosis to show that Pten is selectively required for BCR-mediated initiation of the mitochondrial death pathway. Specifically, deleting Pten, but not other pro-apoptotic molecules, abrogates BCR-elicited apoptosis and improves viability in wild-type immature B cells. We further identify a physiologically and significantly higher intracellular Pten level in immature B cells, as compared to mature B cells, which is responsible for low AKT activity and the propensity towards death in immature B cells. Restoration of AKT activity using a constitutive form of AKT or reduction of Pten to a level comparable with that seen in mature B cells rescues immature B cells from BCR-induced apoptosis. Thus, we provide evidence that Pten is an essential mediator of BCR-induced cell death, and that differential regulation of intracellular Pten levels determines whether BCR ligation promotes cell death or survival. Our findings provide a valuable insight into the mechanisms underlying negative selection and clonal deletion of immature B cells.
Cell Research 10/2008; 19(2):196-207. · 8.19 Impact Factor
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ABSTRACT: Initially identified as a constitutive nuclear factor of kappa light chain immunoglobulin in B lymphocytes (NF-κB), the NF-κB
transcription factor family now consists of 5 mammalian members (p50/NF-KB1, p52/NF-KB2, p65/RelA, c-Rel, and Re1B). Individual
knockouts of each NF-κB subunit in mice have shown that NF-κB is functionally expressed in nearly every tissue and cell type.
The best documented roles for NF-κB lie in their ability to modulate the development, activation, and effector functions of
immune cells. NF-κB participates in both innate and adaptive immunity through regulation of target genes including anti-apoptotic
molecules, cell cycle regulators, cytokines, surface receptors, and various other immune modulators. This chapter will focus
on the contribution of each NF-κB member to immune cell differentiation and effector function, particularly with regard to
macrophages, dendritic cells, T lymphocytes, and B lymphocytes.
02/2007: pages 70-83;
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ABSTRACT: We are reporting the identification of a novel C-type lectin receptor-ligand pair that is involved in T cell costimulation. The receptor, OCILRP2/Clr-g, is rapidly induced following T cell activation and maintained at a substantial level of up to 72 h. The ligand, NKRP1f, is predominantly expressed on dendritic cells (DC). The soluble OCILRP2-Ig blocking protein significantly suppresses specific antigen-stimulated T cell proliferation as well as IL-2 secretion both in vitro and in vivo; conversely, NKRP1f-expressing antigen presenting cells (APC) enhance B7.1/CD28-mediated costimulation for T cell proliferation through interaction with OCILRP2/Clr-g. Our studies reveal a unique functional interaction between two C-type lectins, OCILRP2/Clr-g and NKRP1f, during APC-mediated T cell costimulation and suggest a role for C-type lectins in maintaining T cell response or memory in vivo.
Cellular Immunology 04/2005; 234(1):39-53. · 1.97 Impact Factor
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ABSTRACT: Cell-cycle entry is critical for homeostatic control in physiologic response of higher organisms but is not well understood. The antibody response begins with induction of naive mature B cells, which are naturally arrested in G(0)/G(1) phase of the cell cycle, to enter the cell cycle in response to antigen and cytokine. BLyS (BAFF), a cytokine essential for mature B cell development and survival, is thought to act mainly by attenuation of apoptosis. Here, we show that BLyS alone induces cell-cycle entry and early G(1) cell-cycle progression, but not S-phase entry, in opposition to the cyclin-dependent kinase inhibitors p18(INK4c). Independent of its survival function, BLyS enhances the synthesis of cyclin D2, in part through activation of NF-kappaB, as well as CDK4 and retinoblastoma protein phosphorylation. By convergent activation of the same cell-cycle regulators in opposition to p18(INK4c), B cell receptor signaling induces cell-cycle entry and G(1) progression in synergy with BLyS, but also DNA replication. The failure of BLyS to induce S-phase cell-cycle entry lies in its inability to increase cyclin E and reduce p27(Kip1) expression. Antagonistic cell-cycle regulation by BLyS and p18(INK4c) is functionally linked to apoptotic control and conserved from B cell activation in vitro to antibody response in vivo, further indicating a physiologic role in homeostasis.
Proceedings of the National Academy of Sciences 01/2005; 101(51):17789-94. · 9.68 Impact Factor
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ABSTRACT: Members of the NF-kB transcription factor family are differentially expressed in the B cell lineage. Disruption of individual or two NF-kB subunits exhibits distinct defects in B lymphocyte development, activation, and survival. However, the role each NF-kB plays during B cell development has been obscured by molecular compensation. To address this issue, a trans-dominant form of IkBalpha was transduced into bone marrow cells to act as a pan-inhibitor of NF-kB using a retroviral system. While the development of T-lymphocytes and myeloid cell lineages was not grossly affected by the transduced IkBalpha gene, a significant reduction in the number and percentage of B lineage cells was apparent in IkBalpha transduced chimeric mice. IkBalpha expression decreased the percentage of pre-B and immature B cell subsets in the bone marrow and further impaired the development of follicular mature B cells and marginal zone B cells in the periphery. Introduction of the Bcl-X transgene completely restored the pre-B and immature B cell pool in the bone marrow. However, despite a significant improvement of overall viability of the B cell lineage, Bcl-X expression was insufficient to overcome the maturation block resulting from NF-kB inhibition. Together, our study suggests that NF-kB activity is required for two distinct checkpoints during B cell development: one is for pre-B/immature B cell viability, the other is to provide both survival and maturation signals to ensure the proper development of follicular mature B cells.
Medical Immunology 04/2004; 3(1):1.
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ABSTRACT: Aberrant overexpression of the c-rel protooncogene is associated with lymphoid malignancy, while c-rel deletion produces severe lymphoproliferative defects and immunodeficiency. To investigate the mechanism of c-rel-induced proliferation and cell cycle progression in B lymphocytes, we have compared signaling events elicited through the BCR in c-rel-/- and wild-type B cells. BCR stimulation of c-rel-/- B cells fails to induce proper cyclin expression, resulting in G1 phase arrest, but it is unclear whether these defects are in fact secondary events of decreased B-cell survival, since c-rel deletion also affects the expression of antiapoptotic genes such as bcl-xL. Here, we use the bcl-xL transgene to correct the viability of c-rel-deficient B cells, and show that the inhibition of apoptosis does not necessarily confer hyperproliferation of B cells activated through the BCR. c-rel-/- B cells still fail to enter the S phase despite improved survival by bcl-xL overexpression, suggesting that c-Rel-associated cell cycle progression is dependent on more than just enhanced cell viability. Overexpression of cyclin E protein, however, can cooperate with Bcl-xL to restore cell cycle progression to c-rel-/- B cells via induction of the cyclin-CDK/Rb-E2F pathway. Furthermore, we show that c-Rel can directly regulate transcription of the e2f3a promoter/enhancer, which is then likely to lead to transcriptional activation of the cyclin E promoter by E2F3a. Hence, these studies provide clear evidence that control of lymphocyte proliferation via c-Rel is linked to a cyclin-dependent process, and suggest that c-Rel not only activates antiapoptotic signaling but also the induction of cell cycle progression.
Oncogene 12/2003; 22(52):8472-86. · 6.37 Impact Factor
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ABSTRACT: Surface-expressed BCR mediates the proliferation and expansion of antigen-specific B lymphocytes during a humoral immune response. Although several studies extensively characterize BCR proliferative signaling, the mechanisms linking these pathways to the cell cycle remain elusive. Using knockout mice, we show that c-Rel, a proto-oncogenic member of the NF-kappaB transcription factor family, is essential to BCR-mediated proliferation and cell cycle progression. Splenic B cells obtained from gene-targeted c-Rel knockout mice display a defective proliferation response to antigen receptor cross-linking, resulting in G(1) arrest. At the molecular level, we see that BCR stimulation of resting c-Rel(-/-) B cells fails to induce proper cyclin D3 and cyclin E expression, thereby negatively impacting G(1) phase cyclin-dependent kinase (CDK) activity. c-Rel-deficient B cells also exhibit incomplete phosphorylation of the Retinoblastoma protein (pRb) and poor expression of E2Fs, thus impeding the G(1) to S phase transition. Down-regulation of the pRb-related p130 protein during the G(0) to G(1) transition and removal of the CDK inhibitor p27(KIP1) in late G(1) parallel that of wild-type cells, suggesting that Rel-deficient B cells can exit the G(0) resting state and enter G(1) phase normally. Finally, we demonstrate that restoration of proliferation can be achieved partially upon reintroduction of cyclin E using a protein transduction method to reconstitute primary B cells. Collectively, these studies emphasize the importance of c-Rel in lymphocyte proliferation and oncogenesis, and highlight a requirement for c-Rel in establishing an effective humoral immune response.
International Immunology 09/2002; 14(8):905-16. · 3.41 Impact Factor
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ABSTRACT: B-cell receptor (BCR) ligation induces proliferation and survival in mature B-cells but conversely, can lead to apoptosis in immature B-cells. We have previously shown that c-Rel, a member of the NF-kappaB transcription factor family, is essential for mature B-cell survival and proliferation via regulation of the anti-apoptotic molecule Bcl-X and cell cycle genes E2F3a and cyclin E. Here, we report that c-Rel-deficient mature B-cells are rendered sensitive to BCR-induced growth arrest and apoptosis in a manner that strongly resembles the phenotypic response of immature B-cells to BCR signaling. We further demonstrate that BCR-stimulated immature B-cells are defective in NF-kappaB activation, but that introduction of two downstream c-Rel target genes, Bcl-X and cyclin E, can restore survival and proliferation to these cells. Our studies therefore suggest that specific blockade of NF-kappaB activation may be responsible for the growth arrest and apoptosis of BCR-activated immature B-cells.
Cellular Immunology 232(1-2):9-20. · 1.97 Impact Factor
