鯨岡, 聡子 徳島大学大学院口腔科学教育部（口腔科学専攻）
Sato, Yukiko Japanese Foundation of Cancer Research
Yoshida, Maki Tokyo Medical University
Ishikawa, Ayataka Saitama Cancer Center
Tohyama, Rei Tokyo Medical and Dental University
Tanaka, Michio Tokyo Metropolitan Hiroo Hospital
Kobayashi, Yutaka Tokyo Metropolitan Hiroo Hospital
牛尾, 綾 Tokushima University
Kurosawa, Mie Tokushima University
Nikai, Hiromasa Hiroshima University
Takeuchi, Kengo Japanese Foundation of Cancer Research
Nagao, Toshitaka Tokyo Medical University
Clear cell odontogenic carcinoma
Malignant odontogenic tumor
Hyalinizing clear cell carcinoma
EWSR1-ATF1 fusion genes
Objective: Clear cell odontogenic carcinoma (CCOC) is a rare malignant odontogenic tumor (MOT) characterized by sheets and lobules of vacuolated and clear cells. To understand the biology of CCOC, we established a new cell line, CCOC-T, with EWSR1-ATF1 fusion gene from a mandible tumor with distant metastasis and characterized this cell line.
Materials and methods: To detect the EWSR1-ATF1 fusion gene, we used three CCOC cases, including the present case, by RT-PCR and FISH analysis. We characterized established CCOC-T cells by checking cell growth, invasion and the expression of odontogenic factors and bone-related factors. Moreover, the gene expression profile of CCOC-T cells was examined by microarray analysis.
Results: Histologically, the primary tumor was comprised of cords and nests containing clear and squamoid cells separated by fibrous septa. In addition, ameloblastomatous islands with palisaded peripheral cells were observed, indicating probable odontogenic origin. This tumor expressed the fusion gene EWSR1-ATF1, which underlies the etiology of hyalinizing clear cell carcinoma (HCCC) and potentially that of CCOC. We found a breakpoint in the EWSR1-ATF1 fusion to be the same as that reported in HCCC. Established CCOC-T cells grew extremely slowly, but the cells showed highly invasive activity. Moreover, CCOC-T cells expressed bone-related molecules, odontogenic factors, and epithelial mesenchymal transition (EMT)-related molecules.
Conclusion: To the best of our knowledge, this is the first report on the establishment of a CCOC cell line. CCOC-T cells serve as a useful in vitro model for understanding the pathogenesis and nature of MOT.
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