Ameloblastoma is the most common odontogenic neoplasm. Although ameloblastoma is a benign and slowly growing epithelial odontogenic tumor, it is local invasive with high recurrence rate, especially when the lesion is not adequately removed in the initial surgery. The knowledge of pathogenesis of ameloblastoma remains limited and the cell of origin for ameloblastoma is unclear. It has been suggested that it may arise from the remnants of the odontogenic epithelium. Recent studies point the stem/progenitor cells as both initiators and propagators of the tumors. Sox2 is a transcription factor and plays important roles in many stage of mammalian development, tissue homeostasis and tumor pathogenesis. Sox2+ cells have been showed to give rise to all dental epithelial lineages and therefore has been accepted as a dental epithelial stem cell marker. In this study, we conducted immunohistochemical study to investigate whether there is Sox2+ cells in the remnants of the odontogenic epithelium in dental follicles, and the expression pattern of Sox2 in different subtypes (follicular, plexiform and unicystic) of ameloblastoma. The correlation between Sox2 expression and clinicopathological findings was performed. In this study, we enrolled 6 cases of dental follicle, 74 (27 follicular; 22 plexiform; 25 unicystic type) paraffin-embedded tissues of ameloblastoma. Since previous studies using two different clones of Sox2 antibodies show different results, we first performed a pilot study to determine the antibody we would further used for our study. The results showed as following: (1) Sox2+ cells can be identified in odontogenic epithelial nests in all six dental follicles and the labeling indices is 44.7%. The positive cells are small round cells. (2) Sox2+ cells can be identified in all 74 cases of ameloblastoma with scattered and patchy distribution and variable amount. Majority of positive cells are peripheral basal to pre-ameloblast-like cells. Few Sox2 expression in high columnar ameloblast-like cells can be identified. The plexiform type showed significant higher Sox2 labeling indices than follicular type using Mann-Whitney u test (28.8% vs. 17.2%, p= 0.031). (3) The expression of Sox2 were not correlated with the clinical findings (bone perforation or not, root resorption causing by tumor or not, size of tumor) in ameloblastoma. The expression level also show no difference in cases with recurrent events and cases without recurrence. However, the recurrent cases show much higher Sox2 labeling indices than original ones in three paired cases of three patients. (4) the presence of high-columnar Sox2+ cell was not correlated to any of the clinical parameters in these three type of ameloblastoma. (5) All cases of 2 cases of ameloblastic fibroma and 4 cases of ameloblastic fibro-odontoma showed Sox2+ cells. Sox2+ cells were randomly and scattered distributed in islands or strands of odontogenic epithelium. The cases with more Sox2+ high-columnar cell showed larger tumor size. In this study, we examined the expression pattern of Sox2 in dental follicle and three different types of ameloblastoma and odontogenic tumors with ameloblastic features. Our findings suggested that Sox2+ cells might play some roles in propagation and recurrence of ameloblastoma. Sox2+ cells can be identified in remnants of the odontogenic epithelium in dental follicle, which suggested that these Sox2+ dental epithelial stem cells might be the origin of ameloblastoma and other odontogenic tumors. However, the roles of Sox2 in clinical behavior of ameloblastoma are still not clear and it needs further investigations to uncover what roles Sox2 play in the tumorigenesis of ameloblastoma.