Open Access

Molecular Mechanisms of Dentine-Pulp Complex Response Induced by Microbiome of Deep Caries

Iliescu Alexandru-Andrei
Iliescu Alexandru-Andrei
, 
Paula Perlea
Paula Perlea
, 
Gheorghiu Irina-Maria
Gheorghiu Irina-Maria
, 
Mitran Mihai
Mitran Mihai
, 
Mitran Loredana
Mitran Loredana
, 
Moraru Iren
Moraru Iren
, 
Scărlătescu Sînziana
Scărlătescu Sînziana
, 
Șachir Erdoğan
Șachir Erdoğan
 and 
Iliescu Andrei
Iliescu Andrei
   | Dec 11, 2019
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Published Online: Dec 11, 2019
Page range: 53 - 60
DOI: https://doi.org/10.2478/arsm-2019-0012
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© 2018 Iliescu Alexandru-Andrei et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

1. Tjäderhane L, Haapasalo M. The dentin–pulp border: a dynamic interface between hard and soft tissues. Endodontic Topics $V 20. 2009(1):52-84.10.1111/j.1601-1546.2012.00266.xSearch in Google Scholar

2. Smith AJ. Dentin formation and repair. In: Hargreaves. Seltzer and Bender’s dental pulp. Chicago Quintessence. 2002. p. 41-62.3.Search in Google Scholar

3. Simon S, Smith AJ, Lumley PJ, Berdal A, Smith G, Finney S, et al. Molecular characterization of young and mature odontoblasts. Bone. 2009;45(4):693-70310.1016/j.bone.2009.06.01819555781Search in Google Scholar

4. Mitsiadis TA, Rahiotis C. Parallels between tooth development and repair: Conserved molecular mechanisms following carious and dental injury. Journal of Dental Research. 2004;83(12):896-902.10.1177/15440591040830120215557394Search in Google Scholar

5. Trowbridge, H.O. Histology of pulpal inflammation. In: Hargreaves,. Seltzer and Bender’s dental pulp. Quintessence, Chicago. 2002. p.227-245.Search in Google Scholar

6. da Rosa WLO, Piva E, da Silva AF. Disclosing the physiology of pulp tissue for vital pulp therapy. International Endodontic Journal. 2018;51(8):829-46.10.1111/iej.1290629405371Search in Google Scholar

7. Widmer C, Skutas J, Easson C, Lopez JV, Torneck C, Flax M, et al. Culture-independent Characterization of the Microbiome of Healthy Pulp. J Endodont. 2018;44(7):1132-9.10.1016/j.joen.2018.03.00929803335Search in Google Scholar

8. Siqueira JF, Rocas IN. Diversity of Endodontic Microbiota Revisited. Journal of Dental Research. 2009;88(11):969-81.10.1177/002203450934654919828883Search in Google Scholar

9. Stewart EJ. Growing Unculturable Bacteria. Journal of Bacteriology. 2012;194(16):4151-60.10.1128/JB.00345-12341624322661685Search in Google Scholar

10. Gross EL, Beall CJ, Kutsch SR, Firestone ND, Leys EJ, Griffen AL. Beyond Streptococcus mutans: Dental Caries Onset Linked to Multiple Species by 16S rRNA Community Analysis. Plos One. 2012;7(10).10.1371/journal.pone.0047722347297923091642Search in Google Scholar

11. Rocas IN, Alves FRF, Rachid CTCC, Lima KC, Assuncao IV, Gomes PN, et al. Microbiome of Deep Dentinal Caries Lesions in Teeth with Symptomatic Irreversible Pulpitis. Plos One. 2016;11(5).10.1371/journal.pone.0154653485289427135405Search in Google Scholar

12. Zheng JX, Wu Z, Niu KJ, Xie YA, Hu XL, Fu JN, et al. Microbiome of Deep Dentinal Caries from Reversible Pulpitis to Irreversible Pulpitis. J Endodont. 2019;45(3):302-9.10.1016/j.joen.2018.11.01730803537Search in Google Scholar

13. Sakamoto M, Rocas IN, Siqueira JF, Benno Y. Molecular analysis of bacteria in asymptomatic and symptomatic endodontic infections. Oral Microbiol Immun. 2006;21(2):112-22.10.1111/j.1399-302X.2006.00270.x16476021Search in Google Scholar

14. Keskin C, Demiryurek EO, Onuk EE. Pyrosequencing Analysis of Cryogenically Ground Samples from Primary and Secondary/Persistent Endodontic Infections. J Endodont. 2017;43(8):1309-16.10.1016/j.joen.2017.03.01928648489Search in Google Scholar

15. Rocas IN, Lima KC, Assuncao IV, Gomes PN, Bracks IV, Siqueira JE. Advanced Caries Microbiota in Teeth with Irreversible Pulpitis. J Endodont. 2015;41(9):1450-5.10.1016/j.joen.2015.05.01326187422Search in Google Scholar

16. Hahn CL, Liewehr FR. Relationships between caries bacteria, host responses, and clinical signs and symptoms of pulpitis. J Endod. 2007;33(3):213-9.10.1016/j.joen.2006.11.00817320699Search in Google Scholar

17. Yoshimura A, Lien E, Ingalls RR, Tuomanen E, Dziarski R, Golenbock D. Cutting edge: Recognition of gram-positive bacterial cell wall components by the innate immune system occurs via toll-like receptor 2. Journal of Immunology. 1999;163(1):1-5.10.4049/jimmunol.163.1.1Search in Google Scholar

18. Munson MA, Banerjee A, Watson TF, Wade WG. Molecular analysis of the microflora associated with dental caries. Journal of Clinical Microbiology. 2004;42(7):3023-9.10.1128/JCM.42.7.3023-3029.200444628515243054Search in Google Scholar

19. Bjornson HS. Activation of Hageman-Factor by Lipopolysaccharides of Bacteroides-Fragilis, Bacteroides-Vulgatus, and Fusobacterium-Mortiferum. Rev Infect Dis. 1984;6:S30-S3.10.1093/clinids/6.Supplement_1.S306718941Search in Google Scholar

20. Smith AJ, Scheuen BA, Takahashi Y, Ferracane JL, Shelton RM, Cooper PR. Dentine as a bioactive extracellular matrix. Archives of Oral Biology. 2012;57(2):109-21.10.1016/j.archoralbio.2011.07.00821855856Search in Google Scholar

21. Smith AJ, Duncan HF, Diogenes A, Simon S, Cooper PR. Exploiting the Bioactive Properties of the Dentin-Pulp Complex in Regenerative Endodontics. J Endodont. 2016;42(1):47-56.10.1016/j.joen.2015.10.01926699924Search in Google Scholar

22. Zhu Q, Tian G, Tang Z, Gao J, Tan Y. Adrenomedullin Promotes the Proliferation and Inhibits Apoptosis of Dental Pulp Stem Cells Involved in Divergence Pathways. J Endod. 2016;42(9):1347-54.10.1016/j.joen.2016.06.00127475098Search in Google Scholar

23. Yoshida S, Wada N, Hasegawa D, Miyaji H, Mitarai H, Tomokiyo A, et al. Semaphorin 3A Induces Odontoblastic Phenotype in Dental Pulp Stem Cells. Journal of Dental Research. 2016;95(11):1282-90.10.1177/002203451665308527302880Search in Google Scholar

24. Choung HW, Lee DS, Lee JH, Shon WJ, Lee JH, Ku Y, et al. Tertiary Dentin Formation after Indirect Pulp Capping Using Protein CPNE7. Journal of Dental Research. 2016;95(8):906-12.10.1177/002203451663991927013639Search in Google Scholar

25. Oh HJ, Choung HW, Lee HK, Park SJ, Lee JH, Lee DS, et al. CPNE7, a preameloblast-derived factor, regulates odontoblastic differentiation of mesenchymal stem cells. Biomaterials. 2015;37:208-17.10.1016/j.biomaterials.2014.10.01625453951Search in Google Scholar

26. De Lima CL, Coelho MS, Royer C, Resende AP, Borges GA, da Silva JR, et al. Rosiglitazone Inhibits Proliferation and Induces Osteopontin Gene Expression in Human Dental Pulp Cells. J Endodont. 2015;41(9):1486-91.10.1016/j.joen.2015.05.01026187425Search in Google Scholar

27. Schmalz G, Widbillen M, Gallen KM. Signaling Molecules and Pulp Regeneration. J Endodont. 2017;43(9):S7-S11.10.1016/j.joen.2017.06.00328844306Search in Google Scholar

28. Kim JK, Baker J, Nor JE, Hill EE. mTor Plays an Important Role in Odontoblast Differentiation. J Endodont. 2011;37(8):1081-5.10.1016/j.joen.2011.03.03421763898Search in Google Scholar

29. Simon S, Smith AJ, Berdal A, Lumley PJ, Cooper PR. The MAP Kinase Pathway Is Involved in Odontoblast Stimulation via p38 Phosphorylation. J Endodont. 2010;36(2):256-9.10.1016/j.joen.2009.09.01920113784Search in Google Scholar

30. Simon SR, Berdal A, Cooper PR, Lumley PJ, Tomson PL, Smith AJ. Dentin-pulp complex regeneration: from lab to clinic. Adv Dent Res. 2011;23(3):340-5.10.1177/002203451140532721677089Search in Google Scholar

31. He WX, Niu ZY, Zhao SL, Jin WL, Gao J, Smith AJ. TGF-beta activated Smad signalling leads to a Smad3-mediated down-regulation of DSPP in an odontoblast cell line. Arch Oral Biol. 2004;49(11):911-8.10.1016/j.archoralbio.2004.05.00515353247Search in Google Scholar

32. Yoshioka S, Takahashi Y, Abe M, Michikami I, Imazato S, Wakisaka S, et al. Activation of the Wnt/beta-catenin pathway and tissue inhibitor of metalloprotease 1 during tertiary dentinogenesis. Journal of biochemistry. 2013;153(1):43-50.10.1093/jb/mvs117352799623038674Search in Google Scholar

33. Han N, Zheng Y, Li R, Li X, Zhou M, Niu Y, et al. beta-catenin enhances odontoblastic differentiation of dental pulp cells through activation of Runx2. PLoS One. 2014;9(2):e88890.10.1371/journal.pone.0088890391982824520423Search in Google Scholar

34. Cvikl B, Lussi A, Moritz A, Sawada K, Gruber R. Differential inflammatory response of dental pulp explants and fibroblasts to saliva. International Endodontic Journal. 2016;49(7):655-62.10.1111/iej.1249326114806Search in Google Scholar

35. Cooper PR, Takahashi Y, Graham LW, Simon S, Imazato S, Smith AJ. Inflammation-regeneration interplay in the dentine-pulp complex. Journal of Dentistry. 2010;38(9):687-97.10.1016/j.jdent.2010.05.01620580768Search in Google Scholar

36. Cooper PR, Holder MJ, Smith AJ. Inflammation and regeneration in the dentin-pulp complex: a double-edged sword. J Endod. 2014;40(4 Suppl):S46-51.10.1016/j.joen.2014.01.02124698693Search in Google Scholar

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