Previous studies have indicated that transcription of germ-line (GL) CH genes is necessary to obtain immunoglobulin (Ig) class switching. We report here a correlation between proliferation, switching and GL transcripts. Smu-S gamma 1 switch recombination in lipopolysaccharide (LPS) + interleukin-4 (IL-4)-activated mouse B cells was assayed by a digestion-circularization polymerase chain reaction. Switching to gamma 1 is reduced upon inhibition of DNA synthesis with hydroxy-urea (HU) or aphidicholin (AC). Incubation of activated B cells with HU severely reduces steady-state levels of GL gamma 1 and epsilon RNA. By utilizing elutriation to synchronize B cell blasts in different phases of the cell cycle, it was found that GL gamma 1 transcripts are mainly expressed in G1 and S phases, but not in G0. Using the electrophoretic mobility shift assay, we characterized two major LPS-induced complexes, which bind to the GL gamma 1 promoter and are expressed at levels which correlate with the amount of LPS-induced DNA synthesis. Furthermore, the intensity of the complexes is reduced when cells are arrested with the DNA synthesis inhibitors HU or AC. Elutriation experiments revealed that the complexes are expressed in G1 and S, but not in G0. They bind to an Ets consensus element near the major initiation sites used in proliferating cells. The possible implications of these findings for Ig isotype switching are discussed.

Antibody class switching is achieved by recombinations between switch (S) regions which consist of tandemly repeated sequences located 5' to Ig heavy chain constant (CH) region genes. RNA transcripts from specific unrearranged or germ-line Ig CH genes are induced in IgM+ B cells prior to their undergoing class switch recombination to the same CH genes. Thus, the antibody class switch appears to be directed by induction of accessibility, as assayed by transcription of germ line CH genes. For example, IL-4 induces transcripts from the mouse germ-line C gamma 1 and C epsilon genes to which it also directs switch recombination. We report here that the 150 bp region upstream of the first initiation site of RNA transcribed from the murine germ-line C gamma 1 gene, contains promoter and enhancer elements responsible for basal level transcription and inducibility by anti-Ig phorbol myristate acetate (PMA) and for synergy of these inducers with IL-4 in a surface IgM+ B cell line, L10A6.2 and a surface IgG2a+ B cell line, A20.3. Linker-scanning mutations demonstrated that multiple interdependent elements are required for inducibility by PMA and also for synergy with IL-4. Within the 150 bp region are several consensus sequences that bind known or putative transcription factors, including a C/EBP binding site--IL-4 responsive element, four CACCC boxes, a PU box, a TGF beta inhibitory element (TIE), an alpha beta-interferon response element (alpha beta-IRE) and an AP-3 site. The relationship between transcription regulated by these elements and the regulation of endogenous germ-line gamma 1 transcripts and switching to IgG1 is discussed.

Proteins, which are T cell-dependent antigens, preferentially induce antibodies of the IgG1 class in mouse, whereas LPS, which is a T-independent antigen, preferentially induces IgG3 and IgG2b. Interaction between CD40 on B cells and CD40 ligand (CD40L) on T cells has been shown to mediate T cell contact help for B cell proliferation, differentiation and immunoglobulin isotype switching. In addition, it has been shown that membranes from activated T cells induce germline γ1 transcripts, and that CD40 signaling induces germline γ1 transcripts. These results indicate that T cell contact help mediated by CD40 ligand (CD40L)-CD40 interaction may contribute to this preferential IgG1 isotype selection in response to T-dependent antigens by inducing transcription of germline Ig γ1 transcripts. Here we show that signaling via CD40 increases expression of a transiently transfected luciferase reporter plasmid driven by the germline γ1 promoter in M12.4.1 B lymphoma cells. By linker scanning mutation analysis of the promoter, we have identified a CD40 responsive region (CD40RR) which is able to confer inducibility by CD40L to a minimal c-fos promoter. The CD40RR contains three NF-кB-binding sites, each of which is required for maximal induction of the γ1 promoter activity by CD40L. Binding of the NF-кB/Re1 proteins p50, Re1A, c-Re1 and Re1B to the CD40RR can be induced by CD40 signaling in M12.4.1 cells or in splenic B cells. Co-transfection of expression plasmids for p50 together with Re1A or Re1B, but not p50 alone or p50 and c-Re1, transactivates the CD40RR in transient transfection assays in M12.4.1 cells. These data demonstrate NFкB/Re1 proteins activated by CD40 engagement play an important role in regulation of the germline γ1 promoter. Further support for this conclusion is provided by the finding that treatment of splenic B cells with NF-кB inhibitors prevents induction of germline γ1 transcripts by CD40L. Although LPS also induces NF-кB activation, it poorly induces germline γ1 promoter activity in M12.4.1 cells and it also poorly induces germline γ1 transcripts in splenic B cells and in the mouse B cell line, 1B4.B6. Western blot analyses show that LPS predominantly activates p50 and c-Re1, whereas CD40L induces all NF-кB/Re1 proteins (Re1A, Re1B, c-Re1 and p50). Likewise, in nuclear extracts from LPS-treated cells, p50/cRe1 and p50/p50 dimers are the major NF-кB/Re1 proteins which bind to the promoter for germline γ1 transcripts in electrophoretic mobility shift assays, whereas in nuclear extracts from CD40L-treated cells, p50/Re1A and p50/Re1B dimers are the major complexes. Reporter gene assay by over expressing NF-кB/Re1 fusion proteins indicates that p50/Re1A and p50/Re1B dimers, but not p50/c-Re1 or p50/p50 dimer, can transactivate the germline γ1 promoter. Despite their inability to activate the promoter, p50/c-Re1 and p50/p50 can bind to the promoter and suppress the transactivation activity of p50/Re1A and p50/Re1B. Therefore, the effect of NF-кB activation on the germline γ1 promoter depends on the Relative amounts of transactivating and non-trans activating NF-кB/Re1 dimers. The inability of LPS to induce germline γ1 transcripts can be explained by induction of non-transactivating NF-кB/Re1 dimers and the ability of CD40L to activate the promoter by a greater induction of Re1A and Re1B Re1ative to c-Re1.