De novo synthesized RelB mediates TNF-induced up-regulation of the human polymeric Ig receptor

Abstract

Secretory Abs, which operate in a principally noninflammatory fashion, constitute the first line of acquired immune defense of mucosal surfaces. Such Abs are generated by polymeric Ig receptor (pIgR)-mediated export of dimeric IgA and pentameric IgM. TNF activates a proinflammatory gene repertoire in mucosal epithelial cells and also enhances pIgR expression. In this study we show that TNF-induced up-regulation of the human pIgR critically depends on an NF-kappa B site and flanking sequences within a 204-bp region of the first intron in the pIgR gene, a region largely overlapping with a recently characterized IL-4-responsive enhancer. The intronic NF-kappa B site was rapidly bound by NF-kappa B p65/p50 heterodimers present in nuclear extracts after TNF treatment of HT-29 cells, but a more delayed binding of RelB agreed better with the slow, protein synthesis-dependent, transcriptional activation of the pIgR gene. Overexpression of NF-kappa B p65 caused transient up-regulation of a pIgR-derived reporter gene, whereas overexpression of RelB showed a stronger and more sustained effect. Finally, we demonstrated that inhibition of endogenous RelB by RNA interference severely reduced the TNF responsiveness of our pIgR-derived reporter gene. Thus, TNF-induced signaling pathways required for up-regulated pIgR expression appear to differ from those of the proinflammatory gene repertoire.