Viability of pulp stromal cells in cryopreserved deciduous teeth

详细信息    查看全文

• 作者：Eun Hye Ji (1) (2)
  Je Seon Song (1) (2)
  Seong-Oh Kim (1) (2)
  Mijeong Jeon (2)
  Byung-Jai Choi (1) (2)
  Jae Ho Lee (1) (2)
  
• 关键词：Cryopreservation ; Deciduous teeth ; Pulp stromal cell ; Cell viability
• 刊名：Cell and Tissue Banking
• 出版年：2014
• 出版时间：March 2014
• 年：2014
• 卷：15
• 期：1
• 页码：67-74
• 全文大小：3,947 KB
• 参考文献：1. Arora V, Arora P, Munshi AK (2009) Banking stem cells from human exfoliated deciduous teeth (SHED): saving for the future. J Clin Pediatr Dent 33:289-94
  2. Bakopoulou A, Leyhausen G, Volk J, Tsiftsoglou A, Garefis P, Koidis P et al (2011) Assessment of the impact of two different isolation methods on the osteo/odontogenic differentiation potential of human dental stem cells derived from deciduous teeth. Calcif Tissue Int 88:130-41 CrossRef
  3. Bruder SP, Jaiswal N, Haynesworth SE (1997) Growth kinetics, self-renewal, and the osteogenic potential of purified human mesenchymal stem cells during extensive subcultivation and following cryopreservation. J Cell Biochem 64:278-94 CrossRef
  4. Chen YK, Huang AH, Chan AW, Shieh TY, Lin LM (2011) Human dental pulp stem cells derived from different cryopreservation methods of human dental pulp tissues of diseased teeth. J Oral Pathol Med 40:793-00 CrossRef
  5. Day JG, Stacey G (2007) Cryopreservation and freeze-drying protocols, 2nd edn. Humana Press, Totowa, NJ CrossRef
  6. Domon T, Taniguchi Y, Inoue K, Ushijima N, Taishi Y, Hiramatsu A et al (2008) Apoptosis of odontoclasts under physiological root resorption of human deciduous teeth. Cell Tissue Res 331:423-33 CrossRef
  7. Fernandez-Aviles F, San Roman JA, Garcia-Frade J, Fernandez ME, Penarrubia MJ, de la Fuente L et al (2004) Experimental and clinical regenerative capability of human bone marrow cells after myocardial infarction. Circ Res 95:742-48 CrossRef
  8. Freshney RI (2005) Culture of animal cells: a manual of basic technique, 5th edn. Wiley-Liss, Hoboken, NJ CrossRef
  9. Gay IC, Chen S, MacDougall M (2007) Isolation and characterization of multipotent human periodontal ligament stem cells. Orthod Craniofac Res 10:149-60 CrossRef
  10. Gioventu S, Andriolo G, Bonino F, Frasca S, Lazzari L, Montelatici E et al (2012) A novel method for banking dental pulp stem cells. Transfus Apher Sci 47:199-06 CrossRef
  11. Han B, Bischof JC (2004) Direct cell injury associated with eutectic crystallization during freezing. Cryobiology 48:8-1 CrossRef
  12. Huang GT, Sonoyama W, Chen J, Park SH (2006) In vitro characterization of human dental pulp cells: various isolation methods and culturing environments. Cell Tissue Res 324:225-36 CrossRef
  13. Huang CY, Pelaez D, Dominguez-Bendala J, Garcia-Godoy F, Cheung HS (2009) Plasticity of stem cells derived from adult periodontal ligament. Regen Med 4:809-21 CrossRef
  14. Iohara K, Zheng L, Ito M, Tomokiyo A, Matsushita K, Nakashima M (2006) Side population cells isolated from porcine dental pulp tissue with self-renewal and multipotency for dentinogenesis, chondrogenesis, adipogenesis, and neurogenesis. Stem Cells 24:2493-503 CrossRef
  15. Izumi N, Yoshizawa M, Ono Y, Kobayashi T, Hamamoto Y, Saito C (2007) Periodontal regeneration of transplanted rat teeth subcutaneously after cryopreservation. Int J Oral Maxillofac Surg 36:838-44 CrossRef
  16. Jomha NM, Lavoie G, Muldrew K, Schachar NS, McGann LE (2002) Cryopreservation of intact human articular cartilage. J Orthop Res 20:1253-255 CrossRef
  17. Karaoz E, Dogan BN, Aksoy A, Gacar G, Akyuz S, Ayhan S et al (2010) Isolation and in vitro characterisation of dental pulp stem cells from natal teeth. Histochem Cell Biol 133:95-12 CrossRef
  18. Kawasaki N, Hamamoto Y, Nakajima T, Irie K, Ozawa H (2004) Periodontal regeneration of transplanted rat molars after cryopreservation. Arch Oral Biol 49:59-9 CrossRef
  19. Kobylka P, Ivanyi P, Breur-Vriesendorp BS (1998) Preservation of immunological and colony-forming capacities of long-term (15?years) cryopreserved cord blood cells. Transplantation 65:1275-278 CrossRef
  20. Laureys W, Beele H, Cornelissen R, Dermaut L (2001) Revascularization after cryopreservation and autotransplantation of immature and mature apicoectomized teeth. Am J Orthod Dentofacial Orthop 119:346-52 CrossRef
  21. Lee SY, Chiang PC, Tsai YH, Tsai SY, Jeng JH, Kawata T et al (2010) Effects of cryopreservation of intact teeth on the isolated dental pulp stem cells. J Endod 36:1336-340 CrossRef
  22. Lee SY, Sun CH, Kuo TF, Huang YH, Jeng JH, Yang JC et al (2012) Determination of cryoprotectant for magnetic cryopreservation of dental pulp tissue. Tissue Eng Part C Methods 18:397-07 CrossRef
  23. Liseth K, Ersvaer E, Abrahamsen JF, Nesthus I, Ryningen A, Bruserud O (2009) Long-term cryopreservation of autologous stem cell grafts: a clinical and experimental study of hematopoietic and immunocompetent cells. Transfusion 49:1709-719 CrossRef
  24. Mazur P (1984) Freezing of living cells: mechanisms and implications. Am J Physiol 247:C125–C142
  25. Min KS, Lee HW, Lee HS, Lee JH, Park SH (2010) Comparison of gene expression in human periodontal ligament cells cultured from teeth immediately after extraction and from teeth cryopreserved for 1?week. Cryobiology 60:326-30 CrossRef
  26. Miura M, Gronthos S, Zhao M, Lu B, Fisher LW, Robey PG et al (2003) SHED: stem cells from human exfoliated deciduous teeth. Proc Natl Acad Sci USA 100:5807-812 CrossRef
  27. Miyamoto M, Balamurugan AN, Nozawa Y, Sakurai T, Xu B, Yoshimura S et al (2001) Development of a cryopreservation procedure employing a freezer bag for pancreatic islets using a newly developed cryoprotectant. Cell Transplant 10:363-71
  28. Mugishima H, Harada K, Chin M, Suzuki T, Takagi K, Hayakawa S et al (1999) Effects of long-term cryopreservation on hematopoietic progenitor cells in umbilical cord blood. Bone Marrow Transplant 23:395-96 CrossRef
  29. Muldrew K, Novak K, Studholme C, Wohl G, Zernicke R, Schachar NS et al (2001) Transplantation of articular cartilage following a step-cooling cryopreservation protocol. Cryobiology 43:260-67 CrossRef
  30. Nakamura S, Yamada Y, Katagiri W, Sugito T, Ito K, Ueda M (2009) Stem cell proliferation pathways comparison between human exfoliated deciduous teeth and dental pulp stem cells by gene expression profile from promising dental pulp. J Endod 35:1536-542 CrossRef
  31. Nishino Y, Yamada Y, Ebisawa K, Nakamura S, Okabe K, Umemura E et al (2011) Stem cells from human exfoliated deciduous teeth (SHED) enhance wound healing and the possibility of novel cell therapy. Cytotherapy 13:598-05 CrossRef
  32. Oh YH, Che ZM, Hong JC, Lee EJ, Lee SJ, Kim J (2005) Cryopreservation of human teeth for future organization of a tooth bank—a preliminary study. Cryobiology 51:322-29 CrossRef
  33. Perry BC, Zhou D, Wu X, Yang FC, Byers MA, Chu TM et al (2008) Collection, cryopreservation, and characterization of human dental pulp-derived mesenchymal stem cells for banking and clinical use. Tissue Eng Part C Methods 14:149-56 CrossRef
  34. Price PJ, Cserepfalvi M (1972) Pulp viability and the homotransplantation of frozen teeth. J Dent Res 51:39-3 CrossRef
  35. Rodrigues LV, Vasconcelos AC, Campos PA, Brant JM (2009) Apoptosis in pulp elimination during physiological root resorption in human primary teeth. Braz Dent J 20:179-85
  36. Schwartz O (1986) Cryopreservation as long-term storage of teeth for transplantation or replantation. Int J Oral Maxillofac Surg 15:30-2 CrossRef
  37. Schwartz O, Rank CP (1986) Autotransplantation of cryopreserved tooth in connection with orthodontic treatment. Am J Orthod Dentofacial Orthop 90:67-2 CrossRef
  38. Schwartz O, Andreasen JO, Greve T (1985) Cryopreservation before replantation of mature teeth in monkeys. (II). Effect of preincubation, different freezing and equilibration rates and endodontic treatment upon periodontal healing. Int J Oral Surg 14:350-61 CrossRef
  39. Spath L, Rotilio V, Alessandrini M, Gambara G, De Angelis L, Mancini M et al (2010) Explant-derived human dental pulp stem cells enhance differentiation and proliferation potentials. J Cell Mol Med 14:1635-644 CrossRef
  40. Temmerman L, Beele H, Dermaut LR, Van Maele G, De Pauw GA (2010) Influence of cryopreservation on the pulpal tissue of immature third molars in vitro. Cell Tissue Bank 11:281-89 CrossRef
  41. Woods EJ, Perry BC, Hockema JJ, Larson L, Zhou D, Goebel WS (2009) Optimized cryopreservation method for human dental pulp-derived stem cells and their tissues of origin for banking and clinical use. Cryobiology 59:150-57 CrossRef
  42. Yang Y, Schumacher A, Liu J, Shi X, Hill WD, Hu TC (2011) Monitoring bone marrow-originated mesenchymal stem cell traffic to myocardial infarction sites using magnetic resonance imaging. Magn Reson Med 65:1430-436 CrossRef
  43. Yao S, Pan F, Prpic V, Wise GE (2008) Differentiation of stem cells in the dental follicle. J Dent Res 87:767-71 CrossRef
  44. Zhang W, Walboomers XF, Shi S, Fan M, Jansen JA (2006) Multilineage differentiation potential of stem cells derived from human dental pulp after cryopreservation. Tissue Eng 12:2813-823 CrossRef
  
• 作者单位：Eun Hye Ji (1) (2)
  Je Seon Song (1) (2)
  Seong-Oh Kim (1) (2)
  Mijeong Jeon (2)
  Byung-Jai Choi (1) (2)
  Jae Ho Lee (1) (2)
  
  1. Department of Pediatric Dentistry, College of Dentistry, Yonsei University, 250 Seongsanno, Seodaemun-gu, Seoul, 120-752, Korea
  2. Oral Science Research Center, College of Dentistry, Yonsei University, Seoul, Korea
  
• ISSN：1573-6814

文摘

The cryopreservation of exfoliated deciduous teeth and harvesting of stem cells from them as required would reduce the costs and efforts associated with banking stem cells from primary teeth. The aim of this study was determine whether the viability of pulp stromal cells from deciduous teeth was influenced by the cryopreservation process itself or the period of cryopreservation. In total, 126 deciduous teeth were divided into three groups: (1) fresh, (2) cryopreserved for <3?months (cryo<3), and (3) cryopreserved for 3-?months (cryo3-). The viability of the pulp tissues was compared among the three groups by evaluating the outgrowth from pulp tissues and cell activity within those pulp tissues. In addition, the terminal deoxynucleotidyl transferase-mediated dUTP–biotin nick end labeling (TUNEL) assay was performed to compare cell apoptosis within fresh pulp tissue and pulp tissue that had been cryopreserved for 4?months. The outgrowth from and cell activity within the pulp tissues did not differ significantly between the fresh and cryo<3 pulp tissues. However, these parameters were significantly reduced in the cryo3- pulp tissue. In TUNEL assay, 4-month cryopreserved pulp tissues has more apoptotic cells than fresh group. In conclusion, it is possible to acquire pulp stromal cells from cryopreserved deciduous teeth. However, as the period of cryopreservation becomes longer, it is difficult to get pulp cells due to reduced cell viability.