These data suggest that the loss of expression of p51 and/or the expression of DeltaNp73L might contribute to the pathogenesis of human squamous cell carcinomas.
TP53 mutations, amplification of P63 and expression of cell cycle proteins in squamous cell carcinoma of the oesophagus from a low incidence area in Western Europe.
In this study, biopsies of normal skin (21 of 21), benign neoplasms [seborrheic keratosis (3 of 3), acrochordon (2 of 3), and verruca plana (3 of 3)], and squamous cell carcinomas (SCC) (4 of 4) displayed strong nuclear CUSP immuno-reactivity in epidermal cells.
To explore the penetrance of p63 in esophageal cancer, we analyzed p63 expression in squamous cell carcinomas, adjacent dysplasia and histologically normal mucosa of the esophagus by combination of immunohistochemistry and reverse transcriptase-polymerase chain reaction (RT-PCR).
We showed that p63 is amplified and that DeltaNp63 isotypes are overexpressed in squamous cell carcinoma (SCC) and enhance oncogenic growth in vitro and in vivo.
Our study indicates that (1) p63 and p73 expression may represent an early event in HNSC tumorigenesis, (2) the lack of correlation between p73 or p63 and p53 expression suggests an independent and/or compensatory functional role, (3) p73 expression may play a part in HNSC progression, and (4) p73 and p63 may function as oncogenes in the development of these tumors.
BCC (5/5), SCC (6/6) and actinic keratoses (7/7) concomitantly expressed the p53-homolog p63 and 14-3-3sigma at high levels, ruling out potential inhibitory effects of p63 isoforms on 14-3-3sigma transcription as the basis for loss of 14-3-3sigma expression.
Expression of deltaNp63 was identical to expression of pan-p63 in the vast majority of samples. p63 gene amplification was found in 2 of 10 (20.0%) investigated SCCs and in 1 of 10 (10.0%) ADCs.
We investigated the expression of the two N-terminal p63 isoforms (TA and deltaN isoforms) in human primary well-differentiated buccal squamous cell carcinoma.
To gain further information on the role of p63 expression in human tumours, we used quantitative real-time RT-PCR to study individual p63 isoforms in squamous cell carcinomas of the head and neck (SCCHN).
The p53 family member p63 plays an essential role in the developing epithelium, and overexpression of the DeltaNp63alpha isoform is frequently observed in human squamous cell carcinomas (SCCs).
We found that Snail-induced epithelial-to-mesenchymal transition (EMT) is accompanied by down-regulation of p63 in human squamous cell carcinomas (SCC).
Many significant genes at the 3q26.2-q29 regions previously linked to a specific histology, such as EVI1,MDS1, PIK3CA and TP73L, were observed in SCC (P < 0.05).
We have previously reported that down-regulation of p63 was accompanied with epithelial-to-mesenchymal transition (EMT) by Snail-expressing SCC cells, in which re-expression of DeltaNp63alpha diminished their invasiveness (Higashikawa K, Yoneda S, Tobiume K, Taki M, Shigeishi H, Kamata N. Snail-induced down-regulation of DeltaNp63alpha acquires invasive phenotype of human squamous cell carcinoma.Cancer Res 2007;67:9207-13).
A common set of genes dysregulated in lung cancer was obtained, including BPA1, DUSP6, ASCL1, RNAS1 and S100P. p63 and CK 5/6 p63 are useful for differentiating adenocarcinoma and small cell lung cancer from squamous cell carcinoma.
This study indicates that p63 is a target gene of the proposed keratinocyte-specific TGF-β signal pathway for suppression of the malignant conversion of SCC.
Furthermore, SOX2 overexpression can induce the expression of the squamous markers p63 and keratin 6, supporting the idea that SOX2 might be implicated in SCC differentiation.