Human B cells and macrophages cooperate in T-cell-independent type 2 response.

We have analysed separately the role of B-cell receptor (BCR) stimulation and the soluble second signal in the T-cell-independent type 2 (TI-2) B-cell response. We were able to show that human B cells and macrophages (Mphi) could function together in TI-type microbial response. Interestingly, BCR cross-linking of peripheral blood (PB) B cells enhanced IgG production induced by Mphi-derived growth factors whereas interleukin (IL)-12 + IL-18 had milder effect on IgG production. We demonstrated that B-cell-derived soluble mediators primed lipopolysaccharide (LPS)-stimulated Mphi for tumour necrosis factor-alpha (TNF-alpha) and IL-6 production significantly better than IFN-gamma, confirming the role of B cells in the activation of Mphi. We could show that human PB B cells were active cytokine producers and could be induced to produce interferon (IFN)-gamma mRNA in the presence of known Mphi cytokines, like IL-12 and IL-18. BCR stimulation also stabilized and enhanced the IFN-gamma mRNA production induced by IL-12 and IL-18. In addition, our novel finding was that a known Mphi cytokine, IL-10, induced the expression of IFN-gamma mRNA from human B-cell line (HF28R0) cells. In summary, we propose a model for the active role of B cells in the induction of the inflammatory response during TI antigen challenge in close collaboration with Mphi.

Follicular lymphoma cell lines, an in vitro model for antigenic selection and cytokine-mediated growth regulation of germinal centre B cells.

In the periphery, B cells differentiate in germinal centres (GCs) of secondary lymphoid organs. Isolated GC cells die quickly in vitro by apoptosis. Therefore, cell lines originating from follicular lymphomas, which are the malignant counterparts of GC B cells, would provide a stable in vitro model to study the immunobiology of GC B cells. We have established three novel human follicular lymphoma cell lines that were characterized with special reference to immunophenotypic features, response to B-cell receptor (BCR) triggering, response to cytokines and cytokine mRNA expression. One of the cell lines, HF-1A3, has a phenotype of a centrocyte. It expresses surface immunoglobulin G (sIgG) and dies by apoptosis following BCR cross-linking. Co-stimulation with interleukin-6 (IL-6), IL-15 or interferon-gamma (IFN-gamma) rescues HF-1A3 cells from BCR-induced apoptosis. The second cell line, HF-28, also represents phenotypically an IgG+ centrocyte. Ligation of its BCR leads to the cell-cycle arrest at G1 instead of apoptosis. HF-28 cells express both CD45RA and RO isoforms, which is unusual in B lymphocytes apart from plasma cells, thus suggesting a transition to plasma cell phenotype. The third cell line, HF-4.9, which phenotypically represents an sIgM+ centroblast, responds by proliferation to BCR cross-linking. These cell lines offer a unique in vitro model to study antigenic selection and cytokine-mediated growth regulation of human GC B cells.

Both normal and leukemic B lymphocytes express multiple isoforms of the human Aiolos gene.

Aiolos is a chromatin remodeling transcription regulator that plays an antiproliferative role in B lymphocyte function. In contrast to the related Ikaros factors, mammalian Aiolos has not been reported to generate splice variants. In addition, although human leukemic lymphoblasts express non-DNA-binding Ikaros isoforms with potential dominant negative effect on other interacting factors,the role of Aiolos in human lymphoid disorders has remained obscure. To address the question, why Aiolos should delineate from Ikaros in such a marked way, we have here analyzed whether also human Aiolos could generate alternate isoforms. According to the results obtained, both normal and neoplastic B lineage cells were found to express at least five novel Aiolos variants. Also structurally dominant negative variants with less than three DNA-binding domains were identified. In conclusion, given the multiplicity of also human Aiolos isoforms and thereby the evidently more intricate contribution of Aiolos to the chromatin remodeling machinery, it is suggested, that not only Ikaros, but also Aiolos could participate in a more versatile manner in the regulation of B lymphocyte function.