The Role of Graphene and BiodentineTM on Proliferation and Odontoblastic Differentiation of Pulp Stem Cells
Yıl 2024,
Cilt: 34 Sayı: 4, 291 - 296, 15.10.2024
Periş Çelikel
,
Sera Şimşek Derelioğlu
,
Fatih Şengül
,
Ufuk Okkay
Öz
Objective: The need for new biomaterials with biocompatibility, mechanical, and antimicrobial properties continues in regenerative endodontic clinical applications in dentistry. Biodentine™ is successfully used in vital pulp therapies and has regenerative effects. Additionally, graphene, which possesses good physicochemical, mechanical, and biological properties, promotes cellular biomineralization and osteogenic differentiation in dentistry, along with its neuroregenerative effect. This study aims to investigate the effects of graphene and Biodentine™ on cell proliferation, oxidative stress, and odontogenic differentiation in human dental pulp stem cells (hDPSCs).
Methods: Cryopreserved hDPSCs purchased from American Type Culture Collection (ATCC) were used in our study (Cat No: PT-5025). hDPSCs were seeded into the E-plate wells and subsequently four different doses of graphene (12.5, 25, 50 and 100 µg/ml) and Biodentine™ (2, 4, 8 and 16 µg/ml) were added. Results of MTT, total antioxidant capacity (TAC), total oxidant status (TOS) and alkaline phosphatase (ALP) tests were obtained at the end of the 24th hr. 96 hr-real time cell index data were collected with xCELLigence® system. Resulting data were compared using one-way analysis of variance (ANOVA).
Results: 12.5 µg/ml graphene and 2 µg/ml Biodentine™ were found to be the subgroups with the highest levels of cell proliferation and the lowest oxidative stress. Antioxidative effect was determined in all Biodentine™ doses but only in 12.5 µg/ml graphene. Odontogenic differentiation was observed in all doses of graphene and Biodentine™.
Conclusion: 12.5 µg/ml graphene and 2 µg/ml Biodentine™ were observed to have positive impacts on the proliferation, oxidative stress and odontogenic differentiations of hDPSCs.
Keywords: Cell proliferation. Graphene. Oxidative stress. Odontogenic differentiation. Tricalcium silicate
Etik Beyan
Ethics committee approval was received at the 6th meeting of the Atatürk University Faculty of Medicine Clinical Research Ethics Committee on 30.09.2021, with decision number 64.
Destekleyen Kurum
This study was supported by TUBITAK (The Scientific and Technological Research Council of Turkey) (Project No: 218S666).
Teşekkür
The authors are most grateful to Prof. Ahmet Hacimuftuoglu for his support.
Kaynakça
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- 23. Kabakcı HF, Erdemir A. Growth factors in regenerative endodontics. J Dent Fac Ataturk Univ. 2018;28(1):113-124.doi: 10.17567/ ataunidfd.410506.
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- 28. Daltoe MO, Paula-Silva FW, Faccioli LH, Gaton-Hernandez PM, De Rossi A, Bezerra Silva LA. Expression of Mineralization Markers during Pulp Response to Biodentine and Mineral Trioxide Aggregate. J Endod. 2016;42(4):596-603. doi:10.1016/j.joen.2015.12.018
- 29. Sabbagh J, Ghassibe-Sabbagh M, Fayyad-Kazan M, et al. Differences in osteogenic and odontogenic differentiation potential of DPSCs and SHED. J Dent. 2020;101:103413. doi:10.1016/j.jdent. 2020.103413
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- 34. Xie H, Chua M, Islam I, et al. CVD-grown monolayer graphene induces osteogenic but not odontoblastic differentiation of dental pulp stem cells. Dent Mater. 2017;33(1):e13-e21. doi:10.1016/j.dental.2016.09.030
Yıl 2024,
Cilt: 34 Sayı: 4, 291 - 296, 15.10.2024
Periş Çelikel
,
Sera Şimşek Derelioğlu
,
Fatih Şengül
,
Ufuk Okkay
Kaynakça
- 1. Coll JA, Seale NS, Vargas K, Marghalani AA, Al Shamali S, Graham L. Primary tooth vital pulp therapy: A systematic review and meta-analysis. Pediatr Dent. 2017;39:16-123.
- 2. Kale Y, Yadav S, Dadpe M, Dahake P, Kendre S. Bioinductive and anti-inflammatory properties of Propolis and Biodentine on SHED. Saudi Dent J. Nov 2022;34(7):544-552. doi:10.1016/j.sdentj.2022.08.009.
- 3. Parhizkar A, Asgary S. Local Drug Delivery Systems for Vital Pulp Therapy: A New Hope. Int J Biomater. 2021;5584268. doi:10.1155/2021/5584268
- 4. Wang T, Lin H, Tu Q, Liu J, Li X. Fisetin Protects DNA Against Oxidative Damage and Its Possible Mechanism. Adv Pharm Bull. 2016;6(2):267-70. doi:10.15171/apb.2016.037
- 5. Murray PE, García Godoy C, García Godoy F. How is the biocompatibilty of dental biomaterials evaluated? Med Oral Patol Oral Cir Bucal. 2007;12(3):258-266.
- 6. Siller AF, Whyte MP. Alkaline phosphatase: discovery and naming of our favorite enzyme. J Bone Miner Res. 2018;33(2):362-364. doi: 10.1002/jbmr.3225
- 7. Ahuja S, Surabhi K, Gandhi K, Kapoor R, Malhotra R, Kumar D. Comparative evaluation of success of biodentine and mineral trioxide aggregate with formocresol as pulpotomy medicaments in primary molars: An in vivo study. Int J Clin Pediatr Dent. 2020;1(2):167. doi: 10.5005/jp-journals-10005-1740
- 8. Karkehabadi H, Ahmadyani E, Najafi R, Khoshbin E. Effect of biodentine coated with emdogain on proliferation and differentiation of human stem cells from the apical papilla. Mol Biol Rep. 2022;49(5):3685-3692. doi:10.1007/s11033-022-07208-4
- 9. Kaur M, Singh H, Dhillon JS, Batra M, Saini M. MTA versus Biodentine: Review of Literature with a Comparative Analysis. J Clin Diagn Res. 2017;11(8):ZG01-ZG05. doi:10.7860/JCDR/2017/25840.10374
- 10. Akbulut MB, Mutlu SN, Soylu MA, Simsek E. Interfacial characteristics of Biofactor MTA and Biodentine with dentin. Microsc Res Tech. 2023;86(2):258-267. doi:10.1002/jemt.24267
- 11. Zhang L, Zhang XG, Chen Y, et al. Interfacial stress transfer in a graphene nanosheet toughened hydroxyapatite composite. Applied Physics Letters. 2014;105(16):161908. doi:Artn 16190810. 1063/1.4900424
- 12. Nizami MZI, Takashiba S, Nishina Y. Graphene oxide: A new direction in dentistry. Appl Mater Today. 2020;19:100576. doi:ARTN 10057610.1016/j.apmt.2020.100576
- 13. Dubey N, Bentini R, Islam I, Cao T, Castro Neto AH, Rosa V. Graphene: A Versatile Carbon-Based Material for Bone Tissue Engineering. Stem Cells Int. 2015; 804213. doi:10.1155/2015/804213
- 14. Solanki NP, Venkappa KK, Shah NC. Biocompatibility and sealing ability of mineral trioxide aggregate and biodentine as root-end filling material: A systematic review. CEJ. 2018;21:10-5.doi: 10.4103/JCD.JCD_45_17
- 15. Taghizadehghalehjoughi A, Sezen S, Hacimuftuoglu A, Gulluce M. Vincristine combination with Ca+2 channel blocker increase antitumor effects. Mol Biol Rep. 2019;46(2):2523-2528. doi:10.1007/s11033-019-04706-w
- 16. Liu X, Cheng ZH, Zhang SQ, et al. Amplification Strategy of Silver Nanoclusters with a Satellite-Nanostructure for Substrate-Free Assay of Alkaline Phosphatase by ICP-MS. Anal Chem. 2020;92(5):3769-3774. doi:10.1021/acs.analchem.9b05105
- 17. Ferah Okkay I, Okkay U, Bayram C, et al. Bromelain protects against cisplatin-induced ocular toxicity through mitigating oxidative stress and inflammation. Drug Chem Toxicol. 2021:1-8.doi: 10.1080/01480545.2021.2011308
- 18. Keskin S, Sengul F, Sirin B. Evaluating the Cytotoxic Effect of Melatonin and Oxyresveratrol on Dental Pulp Stem Cells. Eurasian J Med. 2023;55(1):32-36. doi:10.5152/eurasianjmed.2023.21270
- 19. Nikfarjam F, Beyer K, König A, et al. Influence of Biodentine®-a dentine substitute-on collagen type I synthesis in pulp fibroblasts in vitro. PloS one. 2016;11(12):e0167633.doi: 10.1371/journal. pone.0167633
- 20. Abuarqoub D, Aslam N, Zaza R, et al. The Immunomodulatory and Regenerative Effect of Biodentine on Human THP-1 Cells and Dental Pulp Stem Cells: In Vitro Study. Biomed Res Int. 2022:2656784. doi:10.1155/2022/2656784
- 21. Widbiller M, Jeanneau C, Galler KM, Laurent P. Biocompatibility and Bioactive Properties of Biodentine TM. Biodentine™. 1st ed. Springer- Cham Print ISBN: 978-3-030-80931-7; 2022:31-50.doi: 10.1007/978-3-030-80932-4_3
- 22. Poggio C, Ceci M, Dagna A, Beltrami R, Colombo M, Chiesa M. In vitro cytotoxicity evaluation of different pulp capping materials: a comparative study. Arh Hig Rada Toksikol. 2015;66(3):181-8. doi:10.1515/aiht-2015-66-2589
- 23. Kabakcı HF, Erdemir A. Growth factors in regenerative endodontics. J Dent Fac Ataturk Univ. 2018;28(1):113-124.doi: 10.17567/ ataunidfd.410506.
- 24. Abuarqoub D, Aslam N, Jafar H, Abu Harfil Z, Awidi A. Biocompatibility of Biodentine ((R)) with Periodontal Ligament Stem Cells: In Vitro Study. Dent J (Basel). 2020;8(1):17. doi:10.3390/dj8010017
- 25. Aksu S, Gürbüz T. F Evaluation of total oxidant and antioxidant status of various pulp capping materials on human dental pulp stem cells. Selcuk Dent J. 2020;7(2):192-199. doi: 10.15311/ selcukdentj.498311
- 26. Dreanca A, Sarosi C, Parvu AE, et al. Systemic and Local Biocompatibility Assessment of Graphene Composite Dental Materials in Experimental Mandibular Bone Defect. Materials (Basel). May 31 2020;13(11):2511. doi:10.3390/ma13112511
- 27. Olteanu D, Filip A, Socaci C, et al. Cytotoxicity assessment of graphene-based nanomaterials on human dental follicle stem cells. Colloids Surf B Biointerfaces. 2015;136:791-8. doi:10.1016/j.colsurfb.2015.10.023
- 28. Daltoe MO, Paula-Silva FW, Faccioli LH, Gaton-Hernandez PM, De Rossi A, Bezerra Silva LA. Expression of Mineralization Markers during Pulp Response to Biodentine and Mineral Trioxide Aggregate. J Endod. 2016;42(4):596-603. doi:10.1016/j.joen.2015.12.018
- 29. Sabbagh J, Ghassibe-Sabbagh M, Fayyad-Kazan M, et al. Differences in osteogenic and odontogenic differentiation potential of DPSCs and SHED. J Dent. 2020;101:103413. doi:10.1016/j.jdent. 2020.103413
- 30. Diogenes A, Ruparel NB, Shiloah Y, Hargreaves KM. Regenerative endodontics: A way forward. J Am Dent Assoc. 2016;147(5):372-80. doi:10.1016/j.adaj.2016.01.009
- 31. Yang X, Zhao Q, Chen J, et al. Graphene Oxide Quantum Dots Promote Osteogenic Differentiation of Stem Cells from Human Exfoliated Deciduous Teeth via the Wnt/beta-Catenin Signaling Pathway. Stem Cells Int. 2021;8876745. doi:10.1155/2021/ 8876745
- 32. Ahn JH, Kim IR, Kim Y, et al. The Effect of Mesoporous Bioactive Glass Nanoparticles/Graphene Oxide Composites on the Differentiation and Mineralization of Human Dental Pulp Stem Cells. Nanomater. (Basel). 2020;10(4):620. doi:10.3390/nano10040620
- 33. Jang W, Kim HS, Alam K, Ji MK, Cho HS, Lim HP. Direct-Deposited Graphene Oxide on Dental Implants for Antimicrobial Activities and Osteogenesis. Int J Nanomedicine. 2021;16:5745-5754. doi:10.2147/ IJN.S319569
- 34. Xie H, Chua M, Islam I, et al. CVD-grown monolayer graphene induces osteogenic but not odontoblastic differentiation of dental pulp stem cells. Dent Mater. 2017;33(1):e13-e21. doi:10.1016/j.dental.2016.09.030