Dental pulp stem cells' secretome enhances pulp repair processes and compensates TEGDMA-induced cytotoxicity

Objectives. Aim of this study was to investigate the effects of dental pulp stem cells' (DPSCs) secretome, expressed through their culture conditioned medium (CM), on biological endpoints related to pulp repair and on TEGDMA-induced cytotoxicity. Methods. DPSCs cultures were established and characterized for stem cell markers with flow cytometry. CM was collected from DPSCs under serum deprivation conditions (SDC) and normal serum conditions (NSC) at various time-points. CM effects on DPSCs viability, migration and mineralization potential were evaluated by MTT assay, transwell insert and in vitro scratch assay and Alizarin Red staining/quantification respectively. TEGDMA (0.25-2.0 mM) cytotoxicity regarding the same biological endpoints was tested in the presence/absence of CM. TGF-beta 1 and FGF-2 secretion in CM was measured by ELISA. Results. CM collected under SDC (4 d) was able to increase cell viability by 20-25% and to reduce TEGDMA cytotoxicity by 20% (p <0.05). CM positive effects were not obvious when collected under NSC. Transwell assay showed significant increase (26%, p <0.05) of DPSCs' migration after CM exposure, whereas both migration assays could not support a migration rate improvement in TEGDMA-treated cultures exposed to CM compared to TEGDMA alone. CM significantly (p <0.01) increased DPSCs mineralization potential and completely counteracted TEGDMA cytotoxicity on this process. ELISA analysis showed a time-dependent increase of TGF-131 and a TEGDMA concentration-dependent increase of both TGF-131 and FGF-2 in CM. Signcance. These findings suggest that DPSCs secretome increases their viability, migration and mineralization potential and counteracts TEGDMA-induced cytotoxicy, revealing a novel mechanism of DPSCs autocrine signaling on pulp repair processes. (C) 2014 Academy of Dental Materials. Published by Elsevier Ltd. All rights reserved.