Abstract
Hydraulic calcium silicate cements (HCSCs) are contemporary materials in vital pulp therapy (VPT) and regenerative endodontic therapy (RET) due to their favorable effects on pulpal and periodontal cells, including cell differentiation and hard tissue formation. Recent studies also indicated the involvement of several S100A proteins in inflammatory, differentiation, and mineralization processes of the pulp. The aim of the present study was to investigate the effects of HCSCs on S100A gene expression in human dental pulp stem cells (hDPSCs). Human DPSCs were isolated and characterized by multi-lineage stem-cell markers and differentiation protocols. In stimulation experiments hDPSCs were exposed to ProRoot(®)MTA, Biodentine(®), IL-1β, and dexamethasone. Cell viability was determined by XTT assay. IL-6 and IL-8 mRNA expression was measured to analyze proinflammatory response. In addition, odontogenic differentiation and biomineralization assays were conducted (DSPP- and ALP-mRNA expression, ALP activity, and Alizarin Red staining). Differential expression of 13 S100A genes was examined using qPCR. Low concentrations of HCSCs enhanced the proliferation of hDPSCs, whereas higher concentrations exhibited cytotoxic effects. HCSCs induced a pro-inflammatory response and led to odontogenic differentiation and biomineralization. This was accompanied by significant alterations in the expression levels of various S100A genes. ProRoot(®)MTA and Biodentine(®) significantly affect the expression of several S100A genes in hDPSCs, supporting their role in inflammation, differentiation, and mineralization. These findings indicate a link between the effects of HCSCs on human pulp cells during VPT or RET and S100A proteins.