deltaN-p63 isoforms may act as oncogenes owing to their ability to bind to p53-reporter genes without inciting their transcription, thus blocking the p53-driven cell cycle arrest and apoptosis. A novel mechanism linking p63 and Wnt pathways has recently been proposed. Briefly, in vitro studies using squamous cell carcinoma cell lines have suggested that deltaN-p63 may block the phosphorylation of beta-catenin, leading to its nuclear accumulation and triggering beta-catenin-responsive transcription of genes related to proliferation and oncogenic biological behavior. To test this new mechanism, the coexpression of deltaN-p63 and beta-catenin was evaluated in a large cohort of human neoplasms. Two serial sections of TARP-4 multi-tumor tissue microarray, composed of 51 normal tissue cores and 400 human neoplasms [breast (n = 75), colon (n = 75), lung (n = 75), prostate (n = 75) and ovary (n = 50) neoplasms, melanoma (n = 25), and glioblastoma (n = 25)] were subjected to immunohistochemistry with deltaN-p63 and beta-catenin monoclonal antibodies. p63 nuclear expression and beta-catenin membranous, cytoplasmic, membranous + cytoplasmic, and nuclear localization were evaluated. deltaN-p63 expression and beta-catenin nuclear localization were found in 92.6% and 0% of squamous cell carcinomas, 8.9% and 0% of breast carcinomas, 13.8% and 0% of lung adenocarcinomas, 1.4% and 23.2% of colon adenocarcinomas, 0% and 4.8% of prostate adenocarcinomas, 11.1% and 5% of ovary carcinomas, 9.0% and 9.1% of malignant melanomas, and 12.5% and 40.0% of glioblastomas, respectively. No statistically significant association between deltaN-p63 and nuclear beta-catenin expression was found for all tumors. At variance with squamous cell carcinoma cell lines, p63-driven nuclear accumulation of beta-catenin is an unusual phenomenon in human neoplasms. Caution should be exercised when translating the results of studies performed on cell lines to human neoplasms.