Jaime R. Darce

Regulated Expression of BAFF-Binding Receptors during Human B Cell Differentiation

BAFF plays a central role in B-lineage cell biology; however, the regulation of BAFF-binding receptor (BBR) expression during B cell activation and differentiation is not completely understood. In this study, we provide a comprehensive ex vivo analysis of BBRs in human B-lineage cells at various stages of maturation, as well as describe the events that drive and regulate receptor expression. Our data reveal that B-lineage cells ranging from naive to plasma cells (PCs), excluding bone marrow PCs, express BAFF-R uniformly. In contrast, only tonsillar memory B cells (MB) and PCs, from both tonsil and bone marrow tissues, express BCMA. Furthermore, we show that TACI is expressed by MB cells and PCs, as well as a subpopulation of activated CD27neg B cells. In this regard, we demonstrate that TACI is inducible early upon B cell activation and this is independent of B cell turnover. In addition, we found that TACI expression requires activation of the ERK1/2 pathway, since its expression was blocked by ERK1/2-specific inhibitors. Expression of BAFF-R and B cell maturation Ag (BCMA) is also highly regulated and we demonstrate that BCMA expression is only acquired in MB cells and in a manner accompanied by loss of BAFF-R expression. This inverse expression coincides with MB cell differentiation into Ig-secreting cells (ISC), since blocking differentiation inhibited both induction of BCMA expression and loss of BAFF-R. Collectively, our data suggest that the BBR profile may serve as a footprint of the activation history and stage of differentiation of normal human B cells.

ZAP-70 is expressed by a subset of normal human B-lymphocytes displaying an activated phenotype

The Syk family tyrosine kinase ZAP-70 is essential for normal T-cell development and signaling. Recently, leukemic cells from some patients with B-cell chronic lymphocytic leukemia (B-CLL) were shown to express ZAP-70. Owing to the prognostic value of B-CLL ZAP-70 expression, this phenotype may reflect intrinsic biological differences between the two subsets of disease. However, it remains unclear whether CLL-B cells aberrantly acquire ZAP-70 expression during the transformation process or whether ZAP-70 may be expressed under certain conditions in normal human B-lymphocytes. To discriminate between these two possibilities, we assessed ZAP-70 expression in normal human B-lymphocytes. Our data demonstrate that ZAP-70 is expressed in a subpopulation of tonsillar and splenic normal B-lymphocytes that express an activated phenotype. Furthermore, ZAP-70 expression can be induced in vitro upon stimulation of blood and tonsillar B cells. Finally, we show that phosphorylation of ZAP-70 occurs in tonsillar B cells with stimulation through the B-cell receptor. These results provide new insight into normal human B-cell biology as well as provide clues about the transformed cell in B-CLL.

Divergent Effects of BAFF on Human Memory B Cell Differentiation into Ig-Secreting Cells

B cell-activating factor belonging to the TNF family (BAFF) plays a critical role in B cell maturation, yet its precise role in B cell differentiation into Ig-secreting cells (ISCs) remains unclear. In this study, we find that upon isolation human naive and memory B (MB) cells have prebound BAFF on their surface, whereas germinal center (GC) B cells lack detectable levels of prebound BAFF. We attribute their lack of prebound BAFF to cell activation, because we demonstrate that stimulation of naive and MB cells results in the loss of prebound BAFF. Furthermore, the absence of prebound BAFF on GC B cells is not related to a lack of BAFF-binding receptors or an inability to bind exogenous BAFF. Instead, our data suggest that accessibility to soluble BAFF is limited within GCs, perhaps to prevent skewing of the conventional B cell differentiation program. In support of this concept, whereas BAFF significantly enhances ISC differentiation in response to T cell-dependent activation, we report for the first time the ability of BAFF to considerably attenuate ISC differentiation of MB cells in response to CpG stimulation, a form of T cell-independent activation. Our data suggest that BAFF may be providing regulatory signals during specific T cell-independent events, which protect the balance between MB cells and ISCs outside GCs. Taken together, these data define a complex role for BAFF in humoral immune responses and show for the first time that BAFF can also play an inhibitory role in B cell differentiation.

Alternative splicing regulates activation-induced cytidine deaminase (AID): implications for suppression of AID mutagenic activity in normal and malignant B cells.

The mutagenic enzyme activation-induced cytidine deaminase (AID) is required for immunoglobulin class switch recombination (CSR) and somatic hypermutation (SHM) in germinal center (GC) B cells. Deregulated expression of AID is associated with various B-cell malignancies and, currently, it remains unclear how AID activity is extinguished to avoid illegitimate mutations. AID has also been shown to be alternatively spliced in malignant B cells, and there is limited evidence that this also occurs in normal blood B cells. The functional significance of these splice variants remains unknown. Here we show that normal GC human B cells and blood memory B cells similarly express AID splice variants and show for the first time that AID splicing variants are singly expressed in individual normal B cells as well as malignant B cells from chronic lymphocytic leukemia patients. We further demonstrate that the alternative AID splice variants display different activities ranging from inactivation of CSR to inactivation or heightened SHM activity. Our data therefore suggest that CSR and SHM are differentially switched off by varying the expression of splicing products of AID at the individual cell level. Most importantly, our findings suggest a novel tumor suppression mechanism by which unnecessary AID mutagenic activities are promptly contained for GC B cells.

Human B lymphocyte malignancies: exploitation of BLyS and APRIL and their receptors.

B lymphocyte stimulator (BLyS), also referred to as B cell activating factor of the TNF family, is a recently identified tumor necrosis factor (TNF) family member shown to be critical for maintenance of normal B cell development and homeostasis and it shares significant homology with another TNF superfamily member, a proliferation inducing ligand (APRIL). Currently, three receptors have been identified that transmit signals upon BLyS and APRIL binding and these include B cell maturation antigen, B cell activating factor receptor, and transmembrane activator and CAML interactor. The striking effects of BLyS on normal B cell maintenance and survival and the largely B lineage-restricted pattern of receptor expression, raises the possibility that these TNF family ligands and receptors may be involved not only in B cell autoimmunity, but also in the pathogenesis and maintenance of mature B lineage hematological malignancies. In this article, we will review the spectrum of human B lineage malignancies and discuss current evidence supporting a role for BLyS and APRIL in fueling the growth and survival of specific B cell malignancies.

Grb2 regulation of the actin-based cytoskeleton is required for ligand-independent EGF receptor-mediated oncogenesis

Mutations within members of the EGF/ErbB receptor family frequently release the oncogenic potential of these receptors, resulting in the activation of downstream signaling events independent of ligand regulatory constraints. We previously have demonstrated that the signal transduction events originating from S3-v-ErbB, a ligand-independent, oncogenic EGF receptor mutant, are qualitatively distinct from the ligand-dependent mitogenic signaling pathways associated with the wild-type EGF receptor. Specifically, expression of S3-v-ErbB in primary fibroblasts results in anchorage-independent growth, increased invasive potential, and the formation of a transformation-specific phosphoprotein signaling complex, all in a Ras-independent manner. Here we demonstrate the transformation-specific interaction between two components of this complex: the adaptor protein Grb2 and the cytoskeletal regulatory protein caldesmon. This interaction is mediated via both the amino-terminal SH3 and central SH2 domains of Grb2, and the amino-terminal (myosin-binding) domain of caldesmon. Expression of a dominant-negative Grb2 deletion mutant, which lacks the carboxy-terminal SH3 domain, in fibroblasts expressing S3-v-ErbB results in a reduction in phosphoprotein complex formation, the loss of anchorage-independent growth, and a reduction in invasive potential. Together, these results demonstrate a Ras-independent role for Grb2 in modulating cytoskeletal function during ligand-independent EGF receptor-mediated transformation, and provide further support for the hypothesis that ligand-independent oncogenic signaling is qualitatively distinct from ligand-dependent mitogenic signaling by the EGF receptor.