NF-κB determines Paneth versus goblet cell fate decision in the small intestine.

Although the role of the transcription factor NF-κB in intestinal inflammation and tumor formation has been investigated extensively, a physiological function of NF-κB in sustaining intestinal epithelial homeostasis beyond inflammation has not been demonstrated. Using NF-κB reporter mice, we detected strong NF-κB activity in Paneth cells, in '+4/+5' secretory progenitors and in scattered Lgr5+ crypt base columnar stem cells of small intestinal (SI) crypts. To examine NF-κB functions in SI epithelial self-renewal, mice or SI crypt organoids ('mini-guts') with ubiquitously suppressed NF-κB activity were used. We show that NF-κB activity is dispensable for maintaining SI epithelial proliferation, but is essential for ex vivo organoid growth. Furthermore, we demonstrate a dramatic reduction of Paneth cells in the absence of NF-κB activity, concomitant with a significant increase in goblet cells and immature intermediate cells. This indicates that NF-κB is required for proper Paneth versus goblet cell differentiation and for SI epithelial homeostasis, which occurs via regulation of Wnt signaling and Sox9 expression downstream of NF-κB. The current study thus presents evidence for an important role for NF-κB in intestinal epithelial self-renewal.

ADAM17-mediated shedding of the IL6R induces cleavage of the membrane stub by gamma-secretase.

Interleukin-6 (IL6) signals are mediated by classic and trans-signaling. In classic signaling, IL6 first binds to the membrane bound Interleukin-6 Receptor (IL6R) whereas in trans-signaling, IL6 acts via a soluble form of the IL6R. Trans-signaling via the soluble IL6R (sIL6R) was linked to chronic inflammation and cancer. The release of the IL6R is mediated by the disintegrin and metalloproteinases ADAM10 and ADAM17. To analyze the fate of the C-terminal cleavage fragment after ectodomain shedding we fused the IL6R C-terminally to two Z-domains of Protein-A (2Z-tag) or to GFP. A specific C-terminal fragment of the IL6R protein could be detected after ADAM17-induced shedding. Using gamma-secretase inhibitors and gene-deficient cells, we demonstrate that after ADAM17 mediated cleavage, the IL6R C-terminal fragment was cleaved by the gamma-secretase at the plasma membrane. We were, however, not able to detect an IL6R intracellular domain. After gamma-secretase cleavage IL6R cell surface expression was lost and gamma-secretase cleavage product(s) of the IL6R were endocytosed. No GFP-fluorescence of a gamma-secretase-cleaved IL6R-GFP fusion protein was observed in the nucleus. We therefore hypothesize that a potential IL6R intracellular domain fragment is not involved in nuclear signaling but rapidly degraded.