Dr Jaime Aparecido Cury for suggestions made to the manuscript (

Dr. Jaime Aparecido Cury for suggestions made to the manuscript (both from the Department of Biochemistry, FOP/UNICAMP). Ethical approval: This study was approved by the Ethical Committee for the Use of Animals in

Research of the University of Sao Paulo (campus of Ribeirao Preto) (protocol 07.1.346.53.3). Funding: FAPESP (State of Sao Paulo Research Funding Agency) and CNPQ (National Council of Scientific and Technological Development, Ministry of Science and Technology, Brazil). Conflict of interest: There are no conflicts of interest in this study. “
“During the embryonic developmental stage, epithelial–mesenchymal interactions determine VX-809 mouse the formation of all the dental components, including the pulp.1 The pulp is divided into four layers: the external layer is constituted by odontoblasts which produce the dentine. The dentine keeps and protects the inner dental pulp chamber, comprised by the second layer, a zone poor in cells and rich in extracellular matrix, and the third layer containing compact connective tissue. The last layer is infiltrated by a vascular area and a nervous plexus.2 and 3 The presence of undifferentiated cells around the vessels, responsible for the new dentine formation after dental injuries such as cavities or mechanical trauma, has highlighted the dental pulp as a source of mesenchymal stem cells.1 and 2 Of particular selleck products interest is the fact that rodent incisors grow continually,

unlike rodent molars and human teeth. The apical part is responsible for the enamel matrix production. This area contains epithelial stem cells that originate the ameloblasts, stratum intermedium, stellate reticulum and outer dental epithelium layers.4 The first identification and isolation of precursors of functional odontoblasts known as human dental pulp stem cells (DPSC) was reported in by Gronthos et al.5 These cells were characterized by their highly proliferative capacity, the typical fibroblast-like morphology, multipotent differentiation, the expression of mesenchymal stem cells markers PD184352 (CI-1040) in vitro, as well as by dentine regeneration induction in vivo.

6 Several other populations of human dental stem cells have been characterized, such as stem cells obtained from deciduous teeth, 6 and 7 apical papilla, 8 and periodontal ligament stem cells. 9 and 10 Cell populations obtained from rat dental pulp contain STRO-1 positive cells with multilineage potential of differentiation in vitro. 11 A recent study demonstrated that erupted murine molars contain a population of multipotent cells with osteogenic, adipogenic, and chondrogenic differentiation abilities. 12 Other reports have described the gene expression pattern associated with the regulation of the tooth germ morphogenesis in the mouse incisor. 13 and 14 A study performed by Balic and Mina34 provided evidence that dental pulp tissue obtained from unerupted and erupted murine incisors contains a progenitor, but not a multipotent mesenchymal stem cell population.

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