Regulation of ΔNp63α by NFκB

ΔNp63α, the dominant negative isoform of the p63 family is an essential survival factor in head and neck squamous cell carcinoma. This isoform has been shown to be downregulated in response to several DNA damaging agents, thereby enabling an effective cellular response to genotoxic agents. Here, we identify a key molecular mechanism underlying the regulation of ΔNp63α expression in response to extrinsic stimuli, such as chemotherapeutic agents. We show that ΔNp63α interacts with NFκB in presence of cisplatin. We find that NFκB promotes ubiquitin-mediated proteasomal degradation of ΔNp63α. Chemotherapy-induced stimulation of NFκB leads to degradation of ΔNp63α and augments trans-activation of p53 family-induced genes involved in the cellular response to DNA damage. Conversely, inhibition of NFκB with siRNA-mediated silencing NFκB expression attenuates chemotherapy induced degradation of ΔNp63α. These data demonstrate that NFκB plays an essential role in regulating ΔNp63α in response to extrinsic stimuli. Our findings suggest that the activation of NFκB may be a mechanism by which levels of ΔNp63α are reduced, thereby rendering the cells susceptible to cell death in the face of cellular stress or DNA damage.Key words: ΔNp63α, NFκB, ubiquitination, cisplatin, head and neck cancer     

Regulation of NF-κB-dependent gene expression by ligand-induced endocytosis of the interleukin-1 receptor

Interleukin-1 (IL-1) induces the internalization of its cognate receptor from the plasma membrane. However, it has remained elusive as to how this mechanism affects the IL-1-induced signal transduction. In this study, we used small-molecule inhibitors of receptor endocytosis to analyze the effects on IL-1-induced signal transduction pathways. We demonstrate that the inhibition of endocytosis down-modulates IL-1-induced NF-κB-dependent gene expression at a level downstream of nuclear translocation and DNA binding of NF-κB. Moreover, we report that the reduced NF-κB-dependent gene expression disrupts feedback inhibition loops terminating the activation of mitogen-activated protein kinases and down-regulating the expression of IL-1-induced mRNAs. Collectively, we show that the inhibition of endocytosis causes a dysregulation of IL-1-induced signal transduction and gene expression demonstrating an important role for receptor internalization in IL-1 signaling.     

Ligand-induced internalization of TNF receptor 2 mediated by a di-leucin motif is dispensable for activation of the NFκB pathway

Endocytosis is an important mechanism to regulate tumor necrosis factor (TNF) signaling. In contrast to TNF receptor 1 (TNFR1; CD120a), the relevance of receptor internalization for signaling as well as the fate and route of internalized TNF receptor 2 (TNFR2; CD120b) is poorly understood. To analyze the dynamics of TNFR2 signaling and turnover at the plasma membrane we established a human TNFR2 expressing mouse embryonic fibroblast cell line in a TNFR1^−/−/TNFR2^−/− background. TNF stimulation resulted in a decrease of constitutive TNFR2 ectodomain shedding. We hypothesized that reduced ectodomain release is a result of TNF/TNFR2 complex internalization. Indeed, we could demonstrate that TNFR2 was internalized together with its ligand and cytoplasmic binding partners. Upon endocytosis the TNFR2 signaling complex colocalized with late endosome/lysosome marker Rab7 and entered the lysosomal degradation pathway. Furthermore, we identified a di-leucin motif in the cytoplasmic part of TNFR2 suggesting clathrin-dependent internalization of TNFR2. Internalization defective TNFR2 mutants are capable to signal, i.e. activate NFκB, demonstrating that the di-leucin motif dependent internalization is dispensable for this response. We therefore propose that receptor internalization primarily serves as a negative feed-back to limit TNF responses via TNFR2.