Head and neck squamous cell carcinoma (HNSCC) and many epithelial malignancies exhibit increased proliferation, invasion and inflammation, concomitant with aberrant nuclear activation of TP53 and NF-κB family members ΔNp63, c-REL and RELA. However, the mechanisms of crosstalk by which these transcription factors coordinate gene expression and the malignant phenotype remain elusive. Here we demonstrate thatΔNp63 regulates a cohort of genes involved in cell growth, survival, adhesion and inflammation, which substantially overlaps with the NF-κB transcriptome. ΔNp63 with c-REL and/or RELA are recruited to form novel binding complexes on p63 or NF-κB/REL sites of multiple target gene promoters. Overexpressed ΔNp63- or TNF-α-induced NF-κB and inflammatory cytokine IL-8 reporter activation depended upon RELA/c-REL regulatory binding sites. Depletion of RELA or ΔNp63 by siRNA significantly inhibited NF-κB-specific, or TNF-α-induced IL-8 reporter activation. ΔNp63 siRNA significantly inhibited proliferation, survival, and migration by HNSCC cells in vitro. Consistent with the above, an increase in nuclear ΔNp63 accompanied by increased proliferation (Ki67), and adhesion (β4 integrin) markers, and induced inflammatory cell infiltration was observed throughout HNSCC specimens, when compared to the basilar pattern of protein expression and minimal inflammation seen in non-malignant mucosa. Further, overexpression of ΔNp63α in squamous epithelia in transgenic mice leads to increased suprabasilar c-REL, Ki-67, and cytokine expression, together with epidermal hyperplasia and diffuse inflammation, similar to HNSCC. Our study reveals ΔNp63 as a master transcription factor that in coordination with NF-κB/RELs, orchestrates a broad gene program promoting epidermal hyperplasia, inflammation, and the malignant phenotype of HNSCC.
Inflammation-induced activation of proto-oncogenic NF-κB/REL and dysfunction of tumor suppressor TP53/p63/p73 family transcription factors are key events in cancer progression. How inflammatory signaling coordinates dysregulation of these two transcription factor families during oncogenesis remains incompletely understood. Here, we observed that oncoprotein c-REL and tumor suppressor TAp73 are co-expressed and complex with ΔNp63α in the nucleus of a subset of head and neck squamous cell carcinoma (HNSCC) cell lines with mutant (mt)TP53. TNF-α a pro-inflammatory cytokine, promoted nuclear translocation and c-REL/ΔNp63α interaction and dissociation of TAp73 from nuclear ΔNp63α to the cytoplasm, while c-REL siRNA depletion attenuated this effect. Overexpression of c-REL or a c-REL κB-site DNA binding mutant enhanced protein interaction withΔNp63α and TAp73 dissociation, implicating c-REL/ΔNp63α-specific interactions in these effects. We discovered TNF-α- or genetic alteration of c-REL expression inversely modulatesΔNp63α/TAp73 interactions on distinct p63 DNA binding sites, including those for key growth arrest and apoptotic genes p21WAF1, NOXA, and PUMA. Functionally, c-REL repressed these genes and the anti-proliferative effects of TNF-α or TAp73. Conversely, c-REL siRNA depletion enhanced TAp73 promoter interaction, and expression of genes mediating growth arrest and apoptosis. Similar to TNF-α treated HNSCC lines, human HNSCC tumors and hyperplastic squamous epithelia of transgenic mice overexpressing ΔNp63α that exhibit inflammation, also demonstrate increased nuclear c-REL/ΔNp63α and cytoplasmic TAp73 localization. These findings unveil a novel and reversible dynamic mechanism whereby pro-inflammatory cytokine TNF-α-induced c-REL/ΔNp63α interactions inactivate tumor suppressor TAp73 function, promoting TNF-α resistance and cell survival in cancers with mtTP53.
Purpose: To determine if gene signatures differentially expressed in head and neck squamous cell carcinomas (HNSCC) are related to alterations in transcription factors nuclear factor-nB (NF-nB) andTP53previouslyassociatedwithdecreasedcelldeath,responsetotherapy,andworseprognosis. Experimental Design: Unique gene signatures expressed by HNSCC lines were identified by cDNA microarray, principal components, and cluster analyses and validated by quantitative reverse transcription-PCR (RT-PCR) and in situ hybridization. Bioinformatic analysis of the promoters and ontogeny of these clustered genes was done. Expression of proteins encoded by genes of a putative NF-nB signature, NF-nB p65, and TP53 were examined in HNSCC tissue specimens by immunostaining. Predicted promoter binding and modulation of expression of candidate NF-nB genes and cell survival were evaluated by p65 chromatin immunoprecipitation (ChIP) and small interfering RNA (siRNA) knockdown. Results: Two groups of HNSCC exhibiting distinct gene signatures were identified: cluster A enriched for histone genes, with a higher prevalence of TP53 promoter binding motifs; and cluster B enriched for injury response genes with NF-nB regulatory motifs. Coexpression of cluster B proteins was observed with strong NF-nB phospho-p65 and weak TP53 staining, and NF-nB phospho-p65 was inversely associated with TP53 (P = 0.02). Promoter binding of the NF-nB signature genes was confirmed by p65 ChIP, and down-modulation of their expression and cell death were induced by p65 siRNA. Conclusion: NF-nB promotes expression of a novel NF-nB^related gene signature and cell survival in HNSCC that weakly express TP53, a subset previously associated with inactivated wild-typeTP53, greater resistance to chemoradiotherapy, and worse prognosis.
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