Maintenance of nuclear factor-kappa B/Rel and c-myc expression during CD40 ligand rescue of WEHI 231 early B cells from receptor-mediated apoptosis through modulation of I kappa B proteins.

Abstract

Engagement of surface IgM (sIgM) on WEHI 231 murine B lymphoma cells leads to abortive activation and apoptosis, suggesting that this cell line may represent a model for tolerance. Loss of viability in these cells is preceded by an early increase in c-myc RNA levels followed by a decline below control values, implicating c-myc in the control of apoptosis. Costimulation with CD40 ligand (CD40L) has been shown to rescue WEHI 231 cells from anti-sIgM-induced apoptosis, and therefore, the effects of CD40L on c-myc RNA and protein levels were measured. Treatment of these cells with the combination of CD40L and anti-sIgM led to induction and maintenance of elevated levels of c-myc RNA and protein. Since transcriptional regulation of c-myc is mediated through two nuclear factor-kappa B (NF-kappa B) sites in WEHI 231, the effects of CD40L on DNA binding by this family of transcription factors were evaluated. CD40L induced and sustained the levels of NF-kappa B binding to both of these sites, paralleling the changes in c-myc RNA levels. Elevated levels of NF-kappa B were partially achieved through a sustained decrease in the steady state amount of the NF-kappa B/Rel-specific inhibitory protein, I kappa B alpha, and a transient decrease in I kappa B beta. These data lend support to the hypothesis that anti-sIgM-induced apoptosis is caused by a drop in c-myc expression and that an appropriate second signal, such as that provided by CD40L, is able to rescue these cells by inducing NF-kappa B and thereby maintaining c-myc RNA levels.