Inhibition of Delta1 promotes differentiation of odontoblasts and inhibits proliferation of human dental pulp stem cell in vitro.

Dental pulp stem cells (DPSCs) have been receiving more attentions recently as an important biomaterial for tissue engineering. Notch signalling plays a key role in regulating self-renewal and differentiation of a variety of cells. The objective of this study is to investigate the effects of Notch-Delta1 RNA interference (RNAi) on the proliferation and differentiation of human dental pulp stem cells in vitro. In the present study, we performed gene knockdown of Notch ligand Delta1 in DPSCs using lentivirus-mediated Delta1-RNAi. Changes of proliferation in DPSCs/Delta1-RNAi were examined by cell cycle analysis, Cell viability assay (CCK-8) and Western blot analysis of proliferating cell nuclear antigen (PCNA). Cells were cultured in odontoblast differentiation-inducing medium, and the differentiation of cells was detected with Alkaline phosphatase ALP activity assay, Alizarin red S staining, calcium concentration measurement, and Western blot analysis of Dentine sialophosphoprotein (DSPP). Lentivirus-mediated Delta1-RNAi stably knocked-down the expression of Delta1 and Notch signalling, and some of DPSCs/Delta1-RNAi displayed changes in morphology or DSPP expression. The growth rate of Delta1-deficient DPSCs was significantly suppressed as compared with wild type DPSCs and control lentivirus vector transfected DPSCs. Furthermore, the differentiating capability of DPSCs/Delta1-RNAi into odontoblasts is much higher than the two control groups. Notch signalling plays a crucial role in regulating self-renewal and differentiation in DPSCs. The deficient Notch signalling inhibits the self-renewal capacity of DPSCs and tends to induce DPSCs differentiation under odontoblast differentiation-inducing conditions. These findings suggested that DPSCs/Delta1-RNAi might be applicable to stem cell therapies and tooth tissue engineering.

Wang X ，He F ，Tan Y ，Tian W ，Qiu S ... -  《-》

Effects of Notch ligand Delta1 on the proliferation and differentiation of human dental pulp stem cells in vitro.

He F ，Yang Z ，Tan Y ，Yu N ，Wang X ，Yao N ，Zhao J ... -  《-》

[Effect of Notch ligand Delta1-RNA interference by lentivirus on proliferation and differentiation of human dental pulp stem cells].

Wang XF ，Zhang G ，Qiu SB ，He F ，Tan YH ，Chen Q ... -  《-》

Dental pulp stem cells from traumatically exposed pulps exhibited an enhanced osteogenic potential and weakened odontogenic capacity.

Traumatic pulp exposure can bring about some permanent damages to tooth tissues including dental pulps. This study was designed to evaluate the effects of traumatic pulp exposure on the osteo/odontogenic capacity of dental pulp stem cells (DPSCs). Rat incisors were artificially fractured and dental pulps were exposed to the oral environment for 48 h. Then, multi-colony-derived DPSCs from the injured pulps (iDPSCs) were isolated. Their osteo/odontogenic differentiation and the involvement of NF-κB pathway were subsequently investigated. iDPSCs presented a lower proliferative capacity than normal DPSCs (nDPSCs), as indicated by MTT and FCM assay. ALP levels in iDPSCs were significantly higher (P<0.01) than those in nDPSCs. Alizarin red staining revealed that iDPSCs exhibited an increased capacity of calcium deposition. Moreover, iDPSCs expressed stronger osteogenic markers (Runx2/RUNX2 and Ocn/OCN) and less odontogenic gene/protein (Dspp/DSP) than nDPSCs in vitro. In vivo transplantation showed that nDPSCs implants generated the typical dentine-pulp complex while all iDPSCs pellets formed the osteodentin-like tissues which were immunopositive for OCN. Mechanistically, iDPSCs expressed the higher levels of cytoplasmic phosphorylated IκBα/P65 and nuclear P65 than nDPSCs, indicating an active cellular NF-κB pathway in iDPSCs. After the inhibition of NF-κB pathway, the osteogenic potential in iDPSCs was significantly down-regulated while odontogenic differentiation was up-regulated, as indicated by the decreased Alp/Runx2/Ocn and uprised Dspp expression. Pulp exposure for 48 h decreased the odontogenic capacity and enhanced the osteogenic potential of DPSCs via the NF-κB signalling pathway.

Wang Y ，Yan M ，Wang Z ，Wu J ，Wang Z ，Zheng Y ，Yu J ... -  《-》

mTor plays an important role in odontoblast differentiation.

Signaling pathways responsible for dentin regeneration in a dental pulp are not fully understood. In this study, we determined the effects of the mammalian target of rapamycin (mTor) on the differentiation and mineralization of dental pulp stem cells. We hypothesized that the two known mTor complexes Torc1 and Torc 2 play pivotal roles in the differentiation of odontoblasts and that they modulate deposition of a mineralized extracellular matrix. Therefore, we investigated the effects of Torc1 and Torc 2 signaling on the differentiation and mineralization of stem cells from human exfoliated deciduous teeth (SHED). We used Western blot analysis to examine the expression of markers of dental differentiation in SHED (+/-) inhibition of either Torc1 or Torc 2 complex proteins raptor or rictor, respectively. In addition, the deposition of a mineralized matrix was determined under these conditions via alkaline phosphatase and alizarin red staining. Results show that the inhibition of Torc 1, via reduced expression of either raptor or mTor, severely restricts the synthesis of dentin sialoprotein and inhibits deposition of a mineralized matrix. Inhibition of Torc 2, via reduction of rictor, has the opposite effect, enhancing mineralization. This latter effect disappears when both rictor and mTor are inhibited, showing that the Torc 2 effect is Torc 1 dependent. These results strongly suggest an important role for mTor in dental pulp stem cell differentiation and provide evidence that the mechanisms involved in protein synthesis could prove an interesting target for dental pulp tissue engineering.

Kim JK ，Baker J ，Nor JE ，Hill EE ... -  《-》