Project description:Odontoblasts and fibroblasts are suspected to influence the innate immune response triggered in the dental pulp by micro-organisms that progressively invade the human tooth during the carious process. To determine whether they differ in their responses to oral pathogens, we performed a systematic comparative analysis of odontoblast-like cell and pulp fibroblast responses to TLR2, TLR3 and TLR4 specific agonists (lipoteichoic acid [LTA], double-stranded RNA and lipopolysaccharide [LPS], respectively). Cells responded to these agonists by differential up-regulation of chemokine gene expression. CXCL2 and CXCL10 were thus increased by LTA only in odontoblast-like cells, while LPS increased CCL7, CCL26 and CXCL11 only in fibroblasts. These data suggest that odontoblasts and pulp fibroblasts differ in their innate immune responses to oral micro-organisms that invade the pulp tissue. Keywords: cell type comparaison Dental pulp fibroblasts and Odontoblast-like cells stimulated with lipopolysaccharide, ipoteichoic acid or poly(I:C), or unstimulated. Triplicates.

Project description:Odontoblasts and fibroblasts are suspected to influence the innate immune response triggered in the dental pulp by micro-organisms that progressively invade the human tooth during the carious process. To determine whether they differ in their responses to oral pathogens, we performed a systematic comparative analysis of odontoblast-like cell and pulp fibroblast responses to TLR2, TLR3 and TLR4 specific agonists (lipoteichoic acid [LTA], double-stranded RNA and lipopolysaccharide [LPS], respectively). Cells responded to these agonists by differential up-regulation of chemokine gene expression. CXCL2 and CXCL10 were thus increased by LTA only in odontoblast-like cells, while LPS increased CCL7, CCL26 and CXCL11 only in fibroblasts. These data suggest that odontoblasts and pulp fibroblasts differ in their innate immune responses to oral micro-organisms that invade the pulp tissue. Keywords: cell type comparaison

Project description:We report on P7 dental pulp root and crown genetics and pathways altered by the deletion of Tgfbr2 in the dental pulp and odontoblast cells to investigate the short tooth root phenotype demonstrated in the Tgfbr2 conditional knockout mice.

Project description:Human dental pulp cells have the ability to differentiate into odontoblast cells under various stimuli. The objective of our study is to investigate the efffects of glucose on gene expression of human dental pulp cells that under go odontogenic differentiation. Expression microarray were performed to identify the genes that were affected by short-term and long-term exposure to high glucose levels.

Project description:We report the targeted analysis of the human dental pulp stroma and the odontoblast layer using the positional proteomics technique TAILS N-terminomics, which allowed us to capture both naturally blocked and unblocked protein N-termini, and to identify differences between e.g. the dental pulp proteomes of older and younger donors. Noteworthy, these differences were most pronounced in the odontoblast region. Note: This study is a follow-up on PXD002264.

Project description:We report the targeted analysis of the human dental pulp stroma and the odontoblast layer using the positional proteomics technique TAILS N-terminomics, which allowed us to capture both naturally blocked and unblocked protein N-termini, and to identify differences between e.g. the dental pulp proteomes of older and younger donors. Noteworthy, these differences were most pronounced in the odontoblast region. Note: This study is a follow-up on PXD002264.

Project description:Proteomics of exosomes derived from human dental pulp stem cells, human venous endothelial cells and human fibroblasts

Project description:Proteomics of exosomes derived from human dental pulp stem cells, human venous endothelial cells and human fibroblasts

Project description:Purpose: To compare the transcriptional changes of genes in dental pulp tissues with different degrees of inflammatory severity and investigate the role of RAD54B in inflamed human dental pulp cells (hDPCs) Methods: Normal, carious, and pulpitis human dental pulp tissues were collected. Total RNA extracted were subjected to RNA-sequencing and gene expression profiles were further studied by Gene Ontology (GO) and KEGG pathway analysis. DEGs (differentially expressed genes) in homologous recombination repair (HRR) were validated with qRT-PCR. The expression of RAD54B and TNF-α in human dental pulp tissues was detected by immunohistochemistry. HDPCs were cultured and RAD54B level in hDPCs was detected after LPS stimulation using western blot. CCK-8 was applied to investigate the cell proliferation of hDPCs transfected with negative control (Nc) small interfering RNA (siRNA), RAD54B siRNA, P53 siRNA or both siRNAs with or without LPS stimulation. Flow cytometry was applied to detect the cell cycle distribution, and western blot and immunofluorescence were utilized to analyze the expression of RAD54B, P53 and P21 under the above treatments. One-way and two-way ANOVA followed by LSD posttest were used for statistical analysis. Results: RNA-sequencing results identified DEGs among three groups. KEGG pathway analysis revealed enrichment of DEGs in Replication and Repair pathway. HRR and non-homologous end joining (NHEJ) components were further verified and qRT-PCR results were basically consistent with the sequencing data. RAD54B, a HRR accessory factor highly expressed in carious and pulpitis tissues compared to normal pulp, was chosen as our gene of interest. High RAD54B expression was confirmed in inflamed human dental pulp tissues and LPS-stimulated hDPCs. Upon RAD54B knockdown, P53 and P21 expressions in hDPCs were upregulated whereas the cell proliferation was significantly downregulated, accompanied with increased G2/M phase arrest. After inhibiting P53 expression in RAD54B-knockdown hDPCs, P21 expression and cell proliferation were reversed. Conclusions: Gene expression profiles of normal, carious and pulpitis human dental pulp tissues were revealed. HRR components was elucidated to function in dental pulp inflammation. Among HRR DEGs, RAD54B could regulate the cell proliferation of inflamed hDPCs via P53/P21 signaling. This research not only deepens our understanding of dental pulp inflammation but also provides a new insight to clarify the underlying mechanisms.

Project description:Objectives: Sex hormone receptors are reported to be present in human dental pulp (HDP) cells. The purpose of this study was to examine the biological significance of estrogen and androgen receptors (ER and AR, respectively) in HDP cells. Design: We isolated HDP cells expressing ER- and AR-mRNAs and investigated the expression status of the receptors and the response to sex hormones in the cells. Results: HDP cells expressing ER- and/or AR-mRNAs had the ability to form alizarin red S-positive nodules in which calcium and phosphorus were deposited in vitro and to differentiate into odontoblasts-like cells and dentin-like tissue in vivo. Individual clones isolated from HDP cells exhibited a different expression pattern of mRNA for ER and AR. Some clones expressed ERM-NM-1- and/or ERM-NM-2-mRNAs and the others coexpressed ER- and AR-mRNAs. Using the Ingenuity software, we found that 17M-NM-2-estradiol (E2) and dihydrotestosterone (DHT) could act directly on HDP cells through ER- or androgen signaling-mediated mechanisms. E2 or DHT stimulated the mRNA expression for genes related to odontogenesis of dentin-containing teeth and odontoblast differentiation, suggesting that ER and AR in HDP cells may be involved in dentinogenesis. Conclusions: Our findings provide new insights into the biological significance of sex hormone receptors in HDP cells. Gene expression profiles of human dental pulp cells derived from one male patient were compared between cells treated with 10^-6 M 5alpha-dihydrotestosterone and cells treated with vehicle. Each sample has one replicate. Gene expression profiles of human dental pulp cells derived from one female patient were compared between cells treated with 10^-9 M 17beta-estradiol and cells treated with vehicle. Each sample has one replicate.