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Keywords = non-dental stem cells

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18 pages, 23179 KB  
Article
Spondin-1 Inhibits Odontoblastic Differentiation of Human Dental Pulp Stem Cells
by Bara Mardini, Hideki Sugii, Koudai Tashita, Mhd Safwan Albougha, Serina Soeno, Ryosuke Tachibana, Ömer Tarık Özdemir, Kanon Nasu, Sayuri Hamano and Hidefumi Maeda
Biomolecules 2026, 16(6), 769; https://doi.org/10.3390/biom16060769 - 23 May 2026
Viewed by 439
Abstract
Reparative dentin formation is a defensive response that restores a mineralized barrier to protect the dental pulp following various stimuli, such as bacterial invasion, tooth preparation, or restorative materials. However, reparative dentin is limited, and to avoid pathological calcification or pulp canal obliteration, [...] Read more.
Reparative dentin formation is a defensive response that restores a mineralized barrier to protect the dental pulp following various stimuli, such as bacterial invasion, tooth preparation, or restorative materials. However, reparative dentin is limited, and to avoid pathological calcification or pulp canal obliteration, mineral deposition must be restricted to the injured area and temporally restrained once the barrier is reestablished. This suggests the existence of negative regulators that can halt odontoblastic differentiation; however, such inhibitory regulators remain incompletely defined. Spondin-1 (SPON1) is an extracellular matrix protein known to regulate bone homeostasis and act as a negative regulator of bone mass; however, the effects of SPON1 on odontoblastic differentiation of dental pulp stem cells (DPSCs) remain unclear. This study aimed to analyze the effects of SPON1 on odontoblastic differentiation of human DPSCs (HDPSCs). SPON1 was expressed in the odontoblastic layer and dental pulp tissue, and its expression was significantly decreased at the beginning of reparative dentin formation in rats. Treatment with SPON1 inhibited odontoblastic differentiation of HDPSCs by blocking the expression of non-phosphorylated β-catenin, while neutralizing SPON1 significantly enhanced odontoblastic differentiation of HDPSCs. These findings suggest that SPON1 functions as a negative regulator of odontoblastic differentiation during reparative dentin formation. Full article
(This article belongs to the Section Bio-Engineered Materials)
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12 pages, 2799 KB  
Article
Exploratory Expression Analysis of Stem Cell and Epithelial–Mesenchymal Transition Markers in Ameloblastoma
by Luis Alberto Martínez-Marcial, Josué Orlando Ramírez-Jarquín, Francisco German Villanueva-Sánchez, Javier Portilla-Robertson, Carla Monserrat Ramírez-Martínez, David Alonso Trejo-Remigio, Claudia Patricia Mejía-Velázquez, Luis Pablo Cruz-Hervert and Luis Fernando Jacinto-Alemán
Int. J. Mol. Sci. 2026, 27(10), 4645; https://doi.org/10.3390/ijms27104645 - 21 May 2026
Viewed by 430
Abstract
Ameloblastoma is a common benign odontogenic tumor. Its etiology has been associated with dysregulation of the MAPK and SHH pathways, and new theories suggest that tumor stem cells (TSCs) and the epithelial–mesenchymal transition (EMT) are participants in their pathogenesis. Objective: To determine the [...] Read more.
Ameloblastoma is a common benign odontogenic tumor. Its etiology has been associated with dysregulation of the MAPK and SHH pathways, and new theories suggest that tumor stem cells (TSCs) and the epithelial–mesenchymal transition (EMT) are participants in their pathogenesis. Objective: To determine the immunohistochemical expression of SOX2 and CD44 as indicators of TSCs and the gene expression of vimentin, smooth muscle actin, and FGFR1 as indicators of the EMT in conventional, unicystic, and peripheral ameloblastoma. Materials and Methods: Conventional, unicystic, and peripheral ameloblastomas and dental follicles, as a control group, were analyzed by peroxidase immunohistochemistry assays for SOX2 and CD44 as TSC-related markers, and the EMT relationship was determined by RT-qPCR expression for vimentin (VIM), alpha smooth muscle actin (ACTA2), fibroblast growth factor receptor 1 (FGFR1), and GAPDH as a control. Results: The most affected anatomical site was the mandible, with an average age of 38.03 (±20.95) years. SOX2 and CD44 immunoexpression were significantly higher in conventional ameloblastoma. RT-qPCR results showed predominant non-significant expression of VIM, ACTA2, and FGFR1 in unicystic ameloblastoma compared to other ameloblastoma types. Conclusion: The significantly higher immunoexpression of SOX2 and CD44 in conventional subtypes could suggest a greater presence of TSCs, and predominant VIM, ACTA2, and FGFR1 gene expression in unicystic ameloblastoma could suggest the possibility of EMT processes related to cystic formation. More research on TSCs and the EMT is necessary to elucidate this finding. Full article
(This article belongs to the Special Issue Molecular Biomarkers in Oral Pathology)
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16 pages, 3651 KB  
Article
Comparative Analysis of Amelogenin-Derived Peptides LRAP and SP on Osteogenic Differentiation of Human Dental Pulp and Bone Marrow-Derived Stem Cells
by Carmela Del Giudice, Giuliana La Rosa, Carmen Vito, Roberto Tiribuzi, Gianrico Spagnuolo, Ciro Menale, Carlo Rengo and Antonino Fiorino
Dent. J. 2026, 14(2), 94; https://doi.org/10.3390/dj14020094 - 6 Feb 2026
Viewed by 714
Abstract
Background/Objectives: This study aimed to compare the biological effects of two amelogenin-derived peptides—the leucine-rich amelogenin peptide (LRAP) and a synthetic peptide (SP)—on human dental pulp stem cells (hDPSCs) and human bone marrow–derived mesenchymal stem cells (hBMSCs). The investigation focused on cell viability, [...] Read more.
Background/Objectives: This study aimed to compare the biological effects of two amelogenin-derived peptides—the leucine-rich amelogenin peptide (LRAP) and a synthetic peptide (SP)—on human dental pulp stem cells (hDPSCs) and human bone marrow–derived mesenchymal stem cells (hBMSCs). The investigation focused on cell viability, osteogenic differentiation, mineralization, gene expression, and β-catenin expression. Methods: hDPSCs and hBMSCs were cultured in osteogenic medium and treated with LRAP and SP at 1, 5, 10, 50, and 100 ng/mL. Cytotoxicity was assessed by MTT assay, while osteogenic differentiation was evaluated by alkaline phosphatase (ALP) activity and Alizarin Red S staining. Gene expression of RUNX2, COL1A1, OCN, MEPE, and DMP1 was quantified by qPCR. β-catenin localization was analyzed by immunofluorescence. Statistical analysis was performed using one-way ANOVA with Tukey’s post hoc test (p < 0.05). Results: Both peptides exhibited good biocompatibility with hBMSCs, while high concentrations (≥50 ng/mL) reduced hDPSC viability. In both cell types, LRAP and SP increased ALP activity and mineral deposition in a concentration-dependent manner, with the greatest effects at 10 ng/mL. LRAP significantly upregulated osteogenic (RUNX2, COL1A1, OCN) and odontogenic (MEPE, DMP1) gene expression in hDPSCs. Immunofluorescence revealed nuclear β-catenin translocation in hDPSCs and membrane-associated accumulation in hBMSCs, indicating activation of canonical and non-canonical pathways, respectively. Conclusions: LRAP and SP promote osteogenic differentiation through distinct cell-type-specific signaling mechanisms, highlighting their potential as biomimetic agents for mineralized tissue regeneration. Full article
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16 pages, 1608 KB  
Article
Injectable Piezoelectric Hydrogel for Vital Pulp Therapy
by Varun Solanki, Carolina Montoya, Prasanna Neelakantan, Maobin Yang and Santiago Orrego
J. Funct. Biomater. 2025, 16(12), 452; https://doi.org/10.3390/jfb16120452 - 5 Dec 2025
Cited by 1 | Viewed by 2189
Abstract
Vital pulp therapy (VPT) seeks to preserve pulp vitality by using biocompatible with regenerative potential. This study tested the hypothesis that an injectable gelatin methacryloyl (GelMA) hydrogel containing piezoelectric barium titanate promotes odontogenic differentiation of dental pulp stem cells (DPSC) significantly better than [...] Read more.
Vital pulp therapy (VPT) seeks to preserve pulp vitality by using biocompatible with regenerative potential. This study tested the hypothesis that an injectable gelatin methacryloyl (GelMA) hydrogel containing piezoelectric barium titanate promotes odontogenic differentiation of dental pulp stem cells (DPSC) significantly better than a commercially available tricalcium silicate material used for vital pulp therapy. First, the light-curable, injectable piezoelectric hydrogel was engineered and characterized for its physicomechanical, piezoelectric properties and biocompatibility to DPSCs. The effect of this gel on the odontogenic differentiation of DPSCs was determined by measuring the expression level of key genes, compared to Biodentine XP. The hydrogel exhibited excellent injectability (<1 kgf of force), mechanical stability, and generated physiologically relevant voltages under cyclic loading mimicking mastication. MTT and ROS assays show no cytotoxic or damaging oxidative stress effects. When DPSCs were cultured over the materials under cyclic loading, the piezoelectric hydrogel significantly enhanced cell viability and upregulated COL1A1, DSPP, and DMP1 expression compared to Biodentine XP and non-piezoelectric hydrogel controls. These findings establish piezoelectric hydrogel as a self-powered, bioactive platform that converts physiological forces into regenerative bioelectric cues, offering a promising next-generation material for vital pulp therapy. Full article
(This article belongs to the Special Issue Advanced Biomaterials and Engineered Systems in Endodontics)
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12 pages, 1617 KB  
Article
Identification of Active Components in Connarus ruber Extract Exhibiting Anti-Glycation Effects
by Ryoji Taniguchi, Ryusuke Nakatsuka, Yuka Sasaki, Mariko Takenokuchi, Takashi Maoka, Tomio Iseki, Hirohito Kubo and Tadashige Nozaki
Medicines 2025, 12(4), 29; https://doi.org/10.3390/medicines12040029 - 3 Dec 2025
Viewed by 1142
Abstract
Background: Glycation, a non-enzymatic reaction between sugars and biomolecules, leads to the formation of advanced glycation end-products (AGEs), which are implicated in the progression of chronic diseases. Connarus ruber (Poepp.) Planch (C. ruber), a traditional medicinal plant used for diabetes, has [...] Read more.
Background: Glycation, a non-enzymatic reaction between sugars and biomolecules, leads to the formation of advanced glycation end-products (AGEs), which are implicated in the progression of chronic diseases. Connarus ruber (Poepp.) Planch (C. ruber), a traditional medicinal plant used for diabetes, has shown anti-glycation activity. This study aimed to identify the active components in C. ruber extract and elucidate their anti-glycation mechanisms. Methods: Using NMR and LC-MS analyses, we identified epicatechin and procyanidin A2 as major polyphenolic constituents. Collagen glycation assays were performed to evaluate the inhibitory effects of these compounds on fructose- and glyceraldehyde (GA)-induced glycation. Additionally, their cytoprotective effects were assessed using GA-induced cytotoxicity assays in dental pulp stem cells (DPSCs). Results: Both epicatechin and procyanidin A2 inhibited fructose- and GA-induced glycation in a dose-dependent manner, showing greater efficacy than aminoguanidine. Furthermore, these compounds significantly alleviated GA-induced cytotoxicity in DPSCs. Conclusions: These findings suggest that epicatechin and procyanidin A2 are candidate contributors to the anti-glycation and cytoprotective effects of C. ruber. The results support the potential of C. ruber extract as a source of therapeutic agents for glycation-related diseases and for enhancing stem cell viability. Full article
(This article belongs to the Section Oral Medicine and Dentistry)
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16 pages, 458 KB  
Review
Leveraging Dental Biotechnology for Population Oral Health: Innovations in Prevention, Diagnosis, and Treatment
by Omer Faruk Sonmez, Thuto Serufe Makara and Raman Bedi
Int. J. Mol. Sci. 2025, 26(22), 11188; https://doi.org/10.3390/ijms262211188 - 19 Nov 2025
Cited by 4 | Viewed by 2100
Abstract
Biotechnology is reshaping dental public health by providing new tools for prevention, diagnosis, and treatment of oral diseases at scale. Salivary biomarkers enable non-invasive, early detection of caries, periodontitis, and oral cancer. Tissue engineering and regenerative approaches, driven by stem cell signaling and [...] Read more.
Biotechnology is reshaping dental public health by providing new tools for prevention, diagnosis, and treatment of oral diseases at scale. Salivary biomarkers enable non-invasive, early detection of caries, periodontitis, and oral cancer. Tissue engineering and regenerative approaches, driven by stem cell signaling and bioactive scaffolds, offer biologically integrated repair. Genomic discoveries now allow polygenic risk profiling to complement social determinants in identifying vulnerable groups, while novel biomaterials, probiotics, and vaccine research expand options for sustainable caries prevention. These innovations are underpinned by molecular mechanisms such as inflammatory signaling, stem cell differentiation pathways, and antimicrobial activity. Their translation into public health practice requires attention to affordability, regulation, equity, and workforce integration. Harnessed effectively, biotechnology can help shift oral health systems toward more preventive and equitable models of care. Full article
(This article belongs to the Special Issue Application of Biotechnology to Dental Treatment)
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23 pages, 1957 KB  
Review
Three-Dimensional Models of the Dental Pulp: Bridging Fundamental Biology and Regenerative Therapy
by Rana Smaida, Guoqiang Hua, Nadia Benkirane-Jessel and Florence Fioretti
Int. J. Mol. Sci. 2025, 26(22), 10960; https://doi.org/10.3390/ijms262210960 - 12 Nov 2025
Cited by 4 | Viewed by 2485
Abstract
The dental pulp is a dynamic connective tissue essential for tooth vitality, sensory function, immune defense, and reparative dentinogenesis. Conventional endodontic procedures, while effective in eradicating infection, often result in a non-functional, devitalized tooth, highlighting the need for biologically based regenerative approaches. The [...] Read more.
The dental pulp is a dynamic connective tissue essential for tooth vitality, sensory function, immune defense, and reparative dentinogenesis. Conventional endodontic procedures, while effective in eradicating infection, often result in a non-functional, devitalized tooth, highlighting the need for biologically based regenerative approaches. The emergence of three-dimensional (3D) culture systems has transformed pulp biology and endodontic research by providing physiologically relevant microenvironments that better reproduce the dentino-pulp interface, vascular and neural networks, and immune interactions. This review synthesizes current advances in 3D dental pulp modeling, from scaffold-based and hydrogel systems to spheroids, organoids, bioprinted constructs, and microfluidic “tooth-on-a-chip” platforms. Each system’s composition, biological relevance, and translational potential are critically examined with respect to odontogenic differentiation, angiogenesis, neurogenesis, and inflammatory response. Applications in disease modeling, biomaterial screening, and regenerative endodontics are highlighted, showing how these models bridge fundamental biology and therapeutic innovation. Finally, we discuss key challenges including vascularization, innervation, standardization, and clinical translation, and propose integrative strategies combining bioprinting, stem-cell engineering, and organ-on-chip technologies to achieve functional pulp regeneration. Overall, 3D pulp models represent a paradigm shift from reductionist cultures to bioinstructive, patient-relevant platforms that accelerate the development of next-generation endodontic therapies. Full article
(This article belongs to the Special Issue Application of Biotechnology to Dental Treatment)
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14 pages, 2807 KB  
Article
Effects of Caffeine on Dental Mesenchymal Stem Cells: Implications for Regenerative Applications
by Axel Alejandro Lugo-Sanchez, Patricia Alejandra Chavez-Granados, Carlos A. Jurado, Ziyad Allahem, Jorge Emmanuel Ramirez-Lopez, Christian Andrea Lopez-Ayuso, Benjamin Aranda-Herrera, Abdulrahman Alshabib and Rene Garcia-Contreras
J. Funct. Biomater. 2025, 16(9), 314; https://doi.org/10.3390/jfb16090314 - 29 Aug 2025
Cited by 1 | Viewed by 2630
Abstract
Periodontal therapy remains a complex task in dentistry as current methodologies often tend to induce tissue repair rather than regeneration. Caffeine is an alkaloid found in multiple natural sources, which has been reported to have multiple beneficial effects, such as promoting adipogenic differentiation, [...] Read more.
Periodontal therapy remains a complex task in dentistry as current methodologies often tend to induce tissue repair rather than regeneration. Caffeine is an alkaloid found in multiple natural sources, which has been reported to have multiple beneficial effects, such as promoting adipogenic differentiation, a key factor in tissue regeneration. Unfortunately, it has also been reported to decrease cell viability and reduce osteogenic and chondrogenic differentiation, both of which play an important role in regenerative medicine. In this study, we aimed to find a non-cytotoxic dose of purified caffeine over dental pulp stem cells (DPSCs) that could provide its beneficial effects over adipogenesis, while reducing the negative effect upon osteogenesis and chondrogenesis. Additional experiments were conducted to determine its impact upon the expression of pro-inflammatory enzymes, and antibacterial assays to assess a potential antibacterial effect. The results attested that purified caffeine at a dose of 8.03 μM holds no viability reduction effect, nor has any impact on the expression of pro-inflammatory enzymes, promotes adipogenic differentiation, and does not negatively affect osteogenic or chondrogenic differentiation, with any antibacterial effect against Streptococcus mutans, Escherichia coli, and Staphylococcus aureus. These findings suggest that purified caffeine at a dose of 8.03 μM has the potential to aid in the field of regenerative dentistry. Full article
(This article belongs to the Special Issue Advances in Biomaterials for Oral and Dental Tissue Engineering)
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20 pages, 1658 KB  
Article
Preclinical In Vitro Evaluation of Extracellular Vesicles from Human Dental Pulp Stem Cells for the Safe and Selective Modulation of Anaplastic Thyroid Carcinoma
by Anderson Lucas Alievi, Michelli Ramires Teixeira, Vitor Rodrigues da Costa, Irina Kerkis and Rodrigo Pinheiro Araldi
Int. J. Mol. Sci. 2025, 26(13), 6443; https://doi.org/10.3390/ijms26136443 - 4 Jul 2025
Viewed by 3783
Abstract
Anaplastic thyroid carcinoma (ATC) is a highly aggressive malignancy with poor prognosis and limited treatment options. Precision oncology seeks personalized therapies that selectively modulate tumor behavior, which is critical for improving patient outcomes. In this study, we evaluated the therapeutic potential of human [...] Read more.
Anaplastic thyroid carcinoma (ATC) is a highly aggressive malignancy with poor prognosis and limited treatment options. Precision oncology seeks personalized therapies that selectively modulate tumor behavior, which is critical for improving patient outcomes. In this study, we evaluated the therapeutic potential of human dental pulp stem cell-derived extracellular vesicles (hDPSC-EVs) in three ATC cell lines (8505C, HTH83, KTC-2). Fluorescence and confocal microscopy confirmed the efficient, time-dependent internalization of hDPSC-EVs by ATC cells, with increased fluorescence intensity over 48 h. Functional assays revealed the selective inhibition of migration and invasion in a cell line-dependent manner, without affecting cell proliferation, viability, or tumorigenic traits, indicating a non-cytotoxic, context-specific modulation of tumor behavior. After 72 h of EV treatment, targeted qPCR of 92 cancer-related genes showed the strongest response in 8505C cells (24 genes; 16 up, 8 down), moderate changes in KTC-2 (16 genes; 14 up, 2 down), and few alterations in HTH83 (6 genes; 4 up, 2 down). Across all lines, FN1 emerged as a context-dependent target, downregulated in 8505C but upregulated in the other two. No broad pathway enrichment was observed, indicating the fine-tuning of key networks rather than wholesale reprogramming. Despite variations across cell lines, hDPSC-EVs consistently demonstrated no impact on cell proliferation and no evidence of cytotoxicity or tumorigenic behavior, with no adverse outcomes. These findings provide preclinical evidence for hDPSC-EVs as a promising, safe, and targeted therapeutic platform in precision oncology, particularly for aggressive cancers, like ATC, warranting further exploration in preclinical and clinical studies. Full article
(This article belongs to the Special Issue Preclinical and Translational Research in Thyroid Cancer)
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16 pages, 5885 KB  
Article
Route of Application and Dose Evaluation of Dental Pulp Stem Cells for the Treatment of Sialadenitis Caused by Sjögren’s Syndrome: A Preclinical Study
by Zhihao Du, Lifang Feng, Yu Zhang, Xin Peng, Shan Zhang, Rui Zhao, Jia Lei, Xiaotong Li, Guangyan Yu and Chong Ding
Biomedicines 2025, 13(5), 1068; https://doi.org/10.3390/biomedicines13051068 - 28 Apr 2025
Cited by 1 | Viewed by 1706
Abstract
Background: Sjögren’s syndrome (SS) is an autoimmune disorder characterized by sicca syndrome and/or systemic manifestations. In this study, non-obese diabetic (NOD) mice were used as an animal model for studying SS, to evaluate the optimal administration route and dose range of [...] Read more.
Background: Sjögren’s syndrome (SS) is an autoimmune disorder characterized by sicca syndrome and/or systemic manifestations. In this study, non-obese diabetic (NOD) mice were used as an animal model for studying SS, to evaluate the optimal administration route and dose range of dental pulp stem cells (DPSCs) in the treatment of sialadenitis caused by SS. Methods: Different doses of DPSCs were transplanted into the submandibular glands (SMGs) of 14-week-old NOD mice through two different methods: injection or retrograde perfusion through the catheter orifice into the SMG. At 21 weeks of age, the saliva flow rate (SFR), ectopic lymphocytes, and CD4+ T-cell infiltration were measured. Tumor necrosis factor-alpha (TNF-α) and interferon-gamma (IFN-γ) in the glandular tissues were also quantitatively detected. Results: Compared with untreated and PBS-injected controls, different-dose groups of the two administration methods showed an increased saliva flow rate of NOD mice to varying degrees, reduced infiltration of lymphocytes and CD4+ T cells in the SMG, and decreased IFN-γ/TNF-α levels. Finally, we compared these two administration routes and found that the perfusion of 2 × 105 DPSCs presents good therapeutic effects. Conclusions: DPSC perfusion through the catheter orifice is a simple and effective treatment method, which is worthy of further investigation through clinical trials. Full article
(This article belongs to the Special Issue Pathogenesis, Diagnostics, and Therapeutics for Rheumatic Diseases)
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16 pages, 2252 KB  
Article
Impact of Vitamin D3 Functionalization on the Osteogenic Capacity of Bioinspired 3D Scaffolds Based on Ce-Doped Bioactive Glass and Spongia Agaricina
by Ana-Maria Seciu-Grama, Sorana Elena Lazăr, Simona Petrescu, Oana Cătălina Mocioiu, Oana Crăciunescu and Irina Atkinson
J. Funct. Biomater. 2025, 16(4), 141; https://doi.org/10.3390/jfb16040141 - 14 Apr 2025
Cited by 2 | Viewed by 2182
Abstract
Reconstruction of extensive bone defects due to age, trauma, or post-illness conditions remains challenging. Biomimetic scaffolds with osteogenic capabilities have been proposed as an alternative to the classical autograft and allograft implants. Three-dimensional scaffolds were obtained based on Ce-doped mesoporous bioactive glass (MBG) [...] Read more.
Reconstruction of extensive bone defects due to age, trauma, or post-illness conditions remains challenging. Biomimetic scaffolds with osteogenic capabilities have been proposed as an alternative to the classical autograft and allograft implants. Three-dimensional scaffolds were obtained based on Ce-doped mesoporous bioactive glass (MBG) and Spongia agaricina (SA) as sacrificial templates functionalized with vitamin D3. The study aimed to investigate the effect of vitamin D3 functionalization on the optimal variant of a 3D scaffold doped with 3 mol% ceria, selected in our previous work based on its biological and physicochemical properties. Scanning electron microscopy (SEM) images of the non-functionalized/functionalized scaffolds revealed a porous structure with interconnected pores ranging from 100 to 350 μm. Fourier transform infrared spectroscopy (FTIR) and SEM analysis confirmed the surface functionalization. Cytotoxicity evaluation showed that all investigated scaffolds do not exhibit cytotoxicity and genotoxicity toward the Saos-2 osteosarcoma cell line. Moreover, the study demonstrated that functionalization with vitamin D3 enhanced osteogenic activity in dental pulp stem cells (DPSCs) by increasing calcium deposition and osteocalcin secretion, as determined by Alizarin red stain and a colorimetric ELISA kit, as a result of its synergistic action with cerium ions. The results showed that the Ce-doped MBG scaffold functionalized with vitamin D3 had the potential for applications in bone regeneration. Full article
(This article belongs to the Special Issue Functional Biomaterial for Bone Regeneration)
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16 pages, 3242 KB  
Article
Characterization of Fibronectin-Adherent, Non-Fibronectin-Adherent, and Explant-Derived Human Dental Pulp Stem Cell Populations
by Heoijin Kim, Shelley J. Williams and John S. Colombo
Dent. J. 2025, 13(4), 159; https://doi.org/10.3390/dj13040159 - 2 Apr 2025
Viewed by 1122
Abstract
Background/Objectives: Dental pulp stem cells (DPSCs) are of significant interest due to their mesenchymal lineage and relative availability from extracted teeth. This study aims to examine the relationship between fibronectin-adherent, non-fibronectin-adherent, and explant-derived DPSC populations in terms of the population doubling rate in [...] Read more.
Background/Objectives: Dental pulp stem cells (DPSCs) are of significant interest due to their mesenchymal lineage and relative availability from extracted teeth. This study aims to examine the relationship between fibronectin-adherent, non-fibronectin-adherent, and explant-derived DPSC populations in terms of the population doubling rate in culture and the expression of mesenchymal cell surface markers and their capacity for osteodifferentiation. Methods: Human pulp tissue was removed from healthy extracted human teeth, enzymatically digested prior to seeding onto fibronectin-coated plates, and left to adhere for 20 min, yielding a fibronectin-adherent population. The remaining non-adherent cells were transferred and designated ‘non-fibronectin-adherent.’ Intact pulp was placed on uncoated plastic for 5 days, with the migrated cells designated ‘explant-derived’. DPSCs from these populations were examined in terms of population doubling rates, the expression of CD90, CD44, CD105, and CD73, and the expression of RUNX2, SPP1, and BGLAP after 7 days in osteoinductive media. Results: The fibronectin-adherent cells had the greatest population doubling over time. All populations demonstrated comparable percentages of cells positive for mesenchymal markers, though individual marker expression varied slightly. The explant-derived cells showed increased expression of RUNX2 after 7 days in osteoinductive media, while the treated single-cell-suspension-derived populations showed increased expression of SPP1 mRNA. Conclusions: Fibronectin enrichment resulted in a population with the greatest rate of population doubling over extended culture compared to the other two populations. The proportion of cells positive for all four mesenchymal surface markers was the same between populations. The fibronectin-adherent and non-adherent cultures may have responded more rapidly to osteoinductive media than the explant-derived cells. Full article
(This article belongs to the Special Issue Dentistry in the 21st Century: Challenges and Opportunities)
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37 pages, 1474 KB  
Review
Age-Related Oral and Para-Oral Tissue Disorders: The Evolving Therapeutic and Diagnostic Potential of Exosomes
by Mohamed Khaled Mohamed Maria, Esraa Mohamed Abdel Moniem, Ahmed Khaled Hanafy, Dina B. E. Farag, Israa Ahmed Radwan, Marwa M. S. Abbass, Sara El Moshy, Dina Rady, Christof E. Dörfer and Karim M. Fawzy El-Sayed
Dent. J. 2025, 13(3), 106; https://doi.org/10.3390/dj13030106 - 27 Feb 2025
Cited by 3 | Viewed by 4431
Abstract
This review highlights the key molecular and cellular mechanisms contributing to aging, such as DNA damage, mitochondrial dysfunction, telomere shortening, protein dysfunction, and defective autophagy. These biological mechanisms are involved in various oral health conditions prevalent in the elderly, including periodontal disease, oral [...] Read more.
This review highlights the key molecular and cellular mechanisms contributing to aging, such as DNA damage, mitochondrial dysfunction, telomere shortening, protein dysfunction, and defective autophagy. These biological mechanisms are involved in various oral health conditions prevalent in the elderly, including periodontal disease, oral cancer, xerostomia, dental caries, and temporomandibular joint disorders. Exosomes generated by mesenchymal stem cells possess substantial therapeutic potential. These exosomes are nanosized extracellular vesicles derived from cells and are involved in essential intercellular communication and tissue homeostasis. The exosome-based therapies proved superior to traditional cell-based approaches, due to lower immunogenicity, ease of storage, and avoidance of complications associated with cell transplantation. Furthermore, the diagnostic potential of exosomes as non-invasive biomarkers for aging processes and age-related oral diseases offers insights into disease diagnosis, staging, and monitoring. Among the challenges and future perspectives of translating exosome research from preclinical studies to clinical applications is the need for standardized procedures to fully harness the therapeutic and diagnostic capabilities of exosomes. Full article
(This article belongs to the Special Issue Feature Review Papers in Dentistry)
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24 pages, 7012 KB  
Article
Mutanobactin-D, a Streptococcus mutans Non-Ribosomal Cyclic Lipopeptide, Induces Osteogenic/Odontogenic Differentiation of Human Dental Pulp Stem Cells and Human Bone Marrow Stem Cells
by Sandra Nikolic, Giuseppe Alastra, Felix Pultar, Lukas Lüthy, Bernd Stadlinger, Erick M. Carreira, Isaac Maximiliano Bugueno and Thimios A. Mitsiadis
Int. J. Mol. Sci. 2025, 26(3), 1144; https://doi.org/10.3390/ijms26031144 - 28 Jan 2025
Cited by 2 | Viewed by 2363
Abstract
Bacterium-triggered carious lesions implicate dental hard tissue destruction and the simultaneous initiation of regenerative events comprising dental stem cell activation. Streptococcus mutans (S. mutans) is a prominent pathogen of the oral cavity and the principal cause of caries. S. mutans generates [...] Read more.
Bacterium-triggered carious lesions implicate dental hard tissue destruction and the simultaneous initiation of regenerative events comprising dental stem cell activation. Streptococcus mutans (S. mutans) is a prominent pathogen of the oral cavity and the principal cause of caries. S. mutans generates complex products involved in interbacterial interactions, including Mutanobactin-D (Mub-D), which belongs to a group of non-ribosomal cyclic lipopeptides. In the present study, we aimed to analyse the potential role of the synthetic Mub-D peptide in cell populations involved in tissue regenerative processes. To this end, we assessed the in vitro effects of Mub-D in human dental pulp stem cells (hDPSCs) and human bone marrow stem cells (hBMSCs). Our data demonstrated a concentration-dependent effect of Mub-D on their viability and a significant increase in their proliferation and osteogenic/odontogenic differentiation. These events were associated with specific changes in gene expression, where CCDN-1, RUNX-2, OSX, OCN, DMP-1, DSPP, and BMP-2 genes were upregulated. The ability of Mub-D to modulate the osteogenic/odontogenic differentiation of both hDPSCs and hBMSCs and considerably enhance mineralisation in a controlled and concentration-dependent manner opens new perspectives for stem cell-based regenerative approaches in the clinics. Full article
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14 pages, 4219 KB  
Article
Comparative Analysis of Heavy Metal Content in Impacted Third Molars from Industrial and Non-Industrial Areas and Its Effect on the Isolation, Culture, and Proliferation of Dental Stem Cells (DSCs)
by Benita Wiatrak, Sadri Rayad, Tomasz Gębarowski, Jakub Hadzik, Marzena Styczyńska, Tomasz Gedrange, Maciej Dobrzyński, Ewa Barg and Marzena Dominiak
J. Clin. Med. 2024, 13(18), 5465; https://doi.org/10.3390/jcm13185465 - 14 Sep 2024
Cited by 3 | Viewed by 2166
Abstract
Background: This study investigates the impact of environmental pollution on the quality and viability of dental stem cells (DSCs) from impacted third molars. By comparing DSCs from patients in industrial areas with high air pollution and those from non-industrial regions, the research [...] Read more.
Background: This study investigates the impact of environmental pollution on the quality and viability of dental stem cells (DSCs) from impacted third molars. By comparing DSCs from patients in industrial areas with high air pollution and those from non-industrial regions, the research assesses the adverse effects of heavy metals on stem cell proliferation. Methods: Impacted lower third molars were collected from 28 patients—10 from industrial and 18 from non-industrial areas. Patients were divided into two age groups: 18–27 years and 28–38 years old. Dental pulp was extracted under sterile conditions, and DSCs were isolated and cultured. Heavy metal concentrations in dental tissues were measured using atomic absorption/emission spectrometry. Results: The study found significantly higher concentrations of copper and lead in the dental tissues of patients in industrial areas. Cell viability was lower in samples from these areas, with a statistically significant difference in average doubling time and the number of cells obtained after the first passage. There was no significant impact of gender on heavy metal content, except for higher iron levels in men. Conclusions: Exposure to industrial pollutants negatively affects the viability and proliferation of DSCs, but there are no differences in differentiation in the osteogenic medium regarding cell mineralization. These studies highlight the importance of environmental factors for oral health, suggesting that residents of polluted areas may face greater difficulties in dental and regenerative treatments. Further research is needed to develop strategies to mitigate the effects and improve clinical outcomes for affected populations. Full article
(This article belongs to the Special Issue Clinical Research of Novel Therapeutic Approaches in Dentistry)
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