The RAF/MEK/ERK (MAPK) signal transduction cascade is an important mediator of a number of cellular fates including growth, proliferation and survival. The BRAF gene, one of the human isoforms of RAF, is activated by oncogenic RAS, leading to cooperative effects in cells responding to growth factor signals. This study was performed to elucidate a possible function of BRAF in squamous cell carcinoma of the head and neck (HNSCC). Mutations of BRAF and KRAS2 were evaluated in 89 HNSCC and corresponding normal mucosa by direct DNA sequencing analyses after microdissection. The results obtained were correlated with histopathological variables. Activating BRAF missense mutations were identified in 3/89 HNSCC (3%). KRAS2 mutations were found in five out of 89 (6%) HNSCC examined. There were no mutations of KRAS2 and BRAF in non-neoplastic mucosa. We failed to observe a correlation between BRAF or KRAS2 mutations and histopathological factors. Our data indicate that BRAF gene mutations are relatively rare events in HNSCC. Although uncommon, BRAF mutations may identify a subset of patients with HNSCC sensitive to targeted therapy.
The tumor-suppressor protein p53 has recently been shown to belong to a family that includes two structurally related proteins, p63 and p73. In contrast to p53, p63 and p73 play an essential role in epithelial development, stem cell identity and cellular differentiation. Salivary gland tumors carry a wide spectrum of histopathological forms, which may share a common single-cell origin from the epithelial progenitor basal duct cells and have a different tendency of malignant progression. This study was performed to examine the expression of p53, p63, and p73 in benign salivary gland tumors. Expression and mutation of p53, p73, and p63 were examined by direct DNA sequencing, reverse transcription PCR using isoform-specific primers, and by immunohistochemistry in normal parotid tissue ( n=10), and various tumors of the salivary gland (42 pleomorphic adenomas, 12 myoepitheliomas, 8 basal cell adenomas, 5 oncocytomas, 5 canalicular adenomas, and 20 adenolymphomas). In normal parotid tissue the expression of p63 and p73 was restricted to few basal and myoepithelial cells. Ductal luminal and acinus cells were completely negative for the expression of all three family members. In contrast, in salivary gland tumors, strong nuclear staining for p63 and p73 was observed. Myoepithelial and basaloid cells and the basal epithelial layer of adenolyphomas and oncocytomas were positive for p63 and also, to a lesser extent, to p73. Mutations of p53 were detected in 4 of 42 (10%) pleomorphic adenomas, in 3 of 12 (25%) myoepitheliomas, and in 1 of 8 (13%) basal cell adenomas but not in other tumors. We failed to detect specific mutations of p63 and p73. Using isoform-specific PCR, we found that all isoforms of p63 were expressed in normal parotid tissue whereas the pleomorphic adenomas, myoepitehliomas, and basal cell adenomas dominantly expressed the transactivation-incompetent truncated isoforms. Our data indicate that p63 and p73 are upregulated in salivary gland tumors and may serve as a marker of epithelial and myoepithelial progenitor cells in salivary glands. The prevalence of p53 mutations and the observation of the expression of DeltaNp63 isoforms only in pleomorphic adenomas, myoepitheliomas, and also basal cell adenomas may reflect their possible malignant potential.
Pleomorphic adenomas of the parotid gland are benign tumours composed of epithelial and mesenchymal cells. The INK4a-ARF (CDKN2A) locus on chromosome 9p21 encodes two tumour suppressor proteins, p16(INK4a) and p14(ARF), which act as upstream regulators of the Rb-CDK4 and p53 pathways. To study the contribution of each pathway in pleomorphic adenomas, this study analysed alterations of p14(ARF), p16(INK4a), p53, and pRb in these tumours. After microdissecting the different histological components, 42 pleomorphic adenomas of the parotid gland were analysed for INK4a-ARF inactivation by DNA sequence analysis, methylation-specific PCR (MSP), restriction enzyme-related polymerase chain reaction (RE-PCR), mRNA expression, microsatellite analysis, and immunohistochemistry. In addition, microdeletion of p14(ARF) and p16(INK4a) were assessed by differential PCR. The status of p53 and Rb was examined by direct sequencing and immunohistochemistry. Using microdissection, it was possible to examine the tumour components, i.e. epithelial, mesenchymal, and transitional, separately after immunohistochemical identification. Methylation of p14(ARF) was found in 1/42 cases and alterations of p16(INK4a) occurred in 12/42 of pleomorphic adenomas, which correlated with loss of mRNA transcription. Microdeletions or specific mutations of either exon were not detected. Methylation was detected exclusively in the epithelial and transitional components and not within the mesenchymal part of the tumour. p53 mutations were detected in 4/42 adenomas, also occurring solely in the epithelial components of the tumours. pRb was detected immunohistochemically in 40/42 adenomas. In normal, corresponding parotid tissue, p14(ARF), p16(INK4a), p53, and pRb alterations were not observed. The observation that alterations of p14(ARF) and p16(INK4a), and also p53 mutations, occurred exclusively in the epithelial and transitional components of pleomorphic adenoma supports the theory that these areas are prone to malignant transformation to carcinoma in adenoma.
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