Project description:Dental pulp plays a crucial role for dental health, and dental pulp aging influences their regenerative and reparative function. However, the underlying molecular mechanisms of dental pulp aging are not exhaustively understood, and thereby an in-depth and complete understanding of the aged dental pulp is of foremost importance. This study aimed to explore the heterogeneity of young and aged dental pulp tissue using single-cell RNA sequencing (scRNA-seq).

Project description:Patterns of chemotactic receptors regulate the homing of leukocytes to tissues. Here we report that the CCRL2/chemerin/CMKLR1 axis represent a selective pathway for the homing of NK cells to the lung. CCRL2 is a non-signaling seven-transmembrane domain receptor able to control lung tumor growth. Total or endothelial cell targeted CCRL2 deletion or the deletion of its ligand chemerin were found to promote tumor progression in a KrasG12D/+;p53LoxP lung cancer model. This phenotype was dependent on the reduced recruitment of CD27-CD11b+ mature NK cells. Mining scRNA-seq databases identified CCRL2 expression as the hallmark of general alveolar lung capillary endothelial cells (gCaps). CCRL2 expression is epigenetically regulated in lung endothelium. In vivo administration of low doses of the demethylating agent 5-Aza induced CCRL2 upregulation, increased recruitment of NK cells and lung protection in a tumor model. These results identify CCRL2 as a NK cell lung homing molecule that might be exploited to promote NK cell-mediated lung immune surveillance.

Project description:We profiled the cell populations in dental pulp from two normal premolars and one aging inflammatory molar through single-cell RNA sequencing.

Project description:In this study, through three-dimensional spheroid culture, a group of unique multipotent stem cells were identified from mouse dental papilla, called multipotent dental pulp-regenerative stem cells (MDPSCs). MDPSCs exhibited enhanced osteo/odontogenic differentiation capabilities and could form regenerative dentin and neurovascular-like structures that mimicked the native teeth in vivo. Further analysis revealed that CD24a was the bona fide marker for MDPSCs and their expansion was highly dependent on the expression of a key transcriptional factor Sp7. Finally, CD24a positive cells could be detected in primary dental papilla in mice and human, suggesting MDPSCs resided in their native niches. Together, our study has identified a novel group of multipotent pulpregenerative stem cells with defined molecular markers for the potential treatment of pulpitis and pulp necrosis.

Project description:Purpose: The goals of this study are to compare differentially expressed genes in young dental pulp stem cells to the aging dental pulp stem cells and to predict key regular factors. Methods: mRNA and ncRNA profiles of young and aging dental pulp stem cells were generated by deep sequencing, using BGISEQ-500 platform (BGI-Shenzhen, China). The sequence reads that passed quality filters were analyzed at the transcript isoform level with two methods: Agilent Technologies 2100 system and real-time quantitative PCR (QPCR) (TaqMan Probe). Results:After filtering out adaptor-related and low-quality sequences, 669 million clean reads in mRNA Library were generated. Clean reads was mapped to genome sequence with the mapping ratio from 88.54% to 97.61%. A total of 230487 mRNAs was obtained including 123724 known mRNAs and 106763 novel mRNAs respectively; In addition, we detected 177880 lncRNAs，139743 and 38137 were known and novel. For correlation analysis, the coefficient we obtained were all greater than 0.90, indicating a high biological correlation Conclusions: Our study represents the first detailed analysis of differentially expressed genes in aging and young dental pulp stem cells, with biologic replicates, generated by RNA-seq technology. The optimized data analysis workflows reported here should provide a framework for comparative investigations of expression profiles. Our results show that hsa-miR-6724-5p may be a key node in the aging process of DPSCs, and its target genes was involved in the dopaminergic synapse

Project description:Dental pulp cells obtained from several donors proliferated actively in a serum-free medium STK2. The growth rate of dental pulp cells from most donors was higher in the serum-free medium than that in a medium containing 10% serum. DNA microarray analyses showed that gene expression profile of dental pulp cells grown in the serum-free medium was similar to that of cells grown in a medium containing 10% serum. However, several genes related to cell proliferation were up-regulated in dental pulp cells grown in the serum-free medium.

Project description:Wnt regulates various cell responses. In dental pulp cells, Wnt signaling control cell proliferation, apoptosis, migration and differentiation. Here, the differential gene expression of human dental pulp stem cells treated with Wnt ligands or Wnt agonist was examined using a high throughput RNA sequencing technique. Results demonstrated that Wnt ligands or Wnt agonist altered numerous gene expression in human dental pulp stem cells.

Project description:Deciduous and permanent human teeth represent a model system to study ageing of mesenchymal populations. Aging is tightly connected to self-renewal and proliferation and thus, mapping potential molecular differences in these characteristics between populations constitutes an important task. Specifically designed microarray panels were used. We have detected a number of molecules that were differentially expressed in dental pulp mesenchyme from deciduous and permanent teeth extracted from young children and adults, respectively. Among the differentially regulated genes HMGA2, a stem cell-associated marker, stood out as a remarkable example with a robust expression in deciduous pulp cells. In addition to this, we discovered that several proliferation-related genes, including CDC2A and CDK4, were up-regulated in deciduous pulp cells, while matrix genes COL1A1, fibronectin and several signaling molecules, such as VEGF, FGFr-1 and IGFr-1 were up-regulated in the pulp cells from permanent teeth. Taken together, our data suggest that deciduous pulp cells are more robust in self- renewal and proliferation, whereas adult dental pulp cells are more capable of signaling and matrix synthesis.

Project description:Adult stem cells maintain tissue integrity by continuous cellular turnover or serving progenitor cells. Human dental pulp stem cells (hDPSCs) are adult stem cells that can readily be isolated from extracted teeth, then expanded or stored for tissue repair and regeneration. However, stem cells undergo an aging process characterized by a decline in functional abilities, leading eventually to reduced organ function and delays in tissue repair. Like other stem cells, hDPSCs age and go through cellular senescence but little information is available on the mechanisms of aging or the details of the aged hDPSC phenotype. In this study, we investigated the aging phenotypes of human dental pulp and hDPSCs and attempted to rejuvenate them. In this study, hDPSCs were isolated from 23 third molars and primary cultured. Then, Flow cytometey, growth curve, dubling time, colony-forming-unit assay, cell viability after cryopreservation and in serum-free media culture, differntiation capacity for odonto-, adipo- and chondrogenesis, and RNA sequencing were analyzed. As results, the aged tooth maintained its weight of dental pulp however, the frequency of CD90+CD73+ mesenchymal stem cells inside pulp significantly decreased with donor aging. Moreover, each aged hDPSCs showed lower proliferative abilities, poorer survival rates, decreased tri-differentiation potential, and decline in metabolic activities than young hDPSCs. We also found those aged phenotypes could be recovered by cultivating aged hDPSCs in high concentration of fetal bovine serum (FBS) ex vivo and furthermore, the declined metabolic activities were restored by the culture. Here, we suggest a novel method of intervention for rejuvenating hDPSCs and these results have applications in both regenerative medicine and stem cell biology.

Project description:Human deciduous and permanent teeth exhibit different developmental processes, morphologies, histological characteristics and life cycles. In addition their pulp tissues react differently to external stimuli, such as the pulp sensitivity test, dental trauma and pulp therapy materials. These differences are attributable to their genetic backgrounds. Therefore the purpose of this study is to compare the differences of dental pulp in deciduous and permanent teeth. Pulp samples were obtained from permanent premolars (n=6, aged 11-14 years) and deciduous teeth (n=6, aged 11-14 years). Comparative cDNA microarrary analysis revealed several differences in gene expression between the deciduous and permanent pulp tissues. Each GSM record represents a pulp sample pooled from two teeth samples.