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Editorial

Editorial for the Special Issue: Oral Immunology and Periodontitis

Department of Periodontology, Institute of Dentistry, University of Turku, Lemminkäisenkatu, 2, 20520 Turku, Finland
Pathogens 2022, 11(5), 564; https://doi.org/10.3390/pathogens11050564
Submission received: 21 April 2022 / Accepted: 21 April 2022 / Published: 10 May 2022
(This article belongs to the Special Issue Oral Immunology and Periodontitis)
The two most common forms of oral infectious diseases are caries and periodontal diseases. Periodontal diseases, namely gingivitis and periodontitis, occur as inflammatory responses against the constant challenges of infections. Cellular components of the oral immune response are very similar to systemic immune responses; however, the interactions between oral bacteria, oral hard tissues, resident cells of the periodontium, immune cell activation, and genetic determinants make oral immune responses unique [1].
This Special Issue, entitled “Oral Immunology and Periodontitis”, is composed of seven original articles and four reviews and aims to discuss different aspects of oral immune responses in the pathogenesis of periodontitis. In their original article, Kasnak et al. [2] raised the question of whether matrix metalloproteinase (MMP)-3-1171 5A/6A polymorphism has an association with gingival crevicular fluid (GCF) MMP-3 levels and periodontal destruction. As a result, they stated that an association between GCF MMP-3 levels and periodontitis occurred but not with the single-nucleotide polymorphism. According to Esberg et al. [3] there are global antibody patterns for oral bacteria or potential population time trends. They observed an increase in IgG towards Streptococcus salivarius and Streptococcus sanguinis in the younger population and towards Aggregatibacter actinomycetemcomitans, Filifactor alocis, and Streptococcus mutans in the elderly population. Gursoy et al. [4] tested the ability of human milk oligosaccharides to activate human beta-defensin (hBD) expressions and found that 2′-fucosyllactose and 3-fucosyllactose have the ability to stimulate hBD-2 expression. Lundtorp-Olsen et al. [5] tested their hypotheses that the consumption of probiotics counteracts the negative effects of sugar stress on oral homeostasis. They demonstrated that the combined consumption of xylitol and probiotics has an impact on salivary microbiota composition. In their second study, Lundtorp-Olsen et al. [6] evaluated the compositional stability of supragingival microbiota against the regular use of probiotics and found no augmenting effect of probiotics on the supragingival microbiota. Elmanfi et al. [7] analyzed the regulatory roles of bacterial signaling molecules and cyclic dinucleotides on human gingival fibroblast behavior. They showed that bacterial cyclic dinucleotides interacted with lipopolysaccharide-mediated cellular responses. Finally, in their 12-week follow-up study, Gursoy et al. [8] found that the total salivary protease activity could be used as a biomarker of unresponsive tissue responses against periodontal treatment.
In their reviews, Celik and Kantarci [9] emphasized vascular changes and hypoxia while discussing systemic disease–periodontitis interactions. Grant [10] discussed the role of pyruvate kinase in the pathogenesis of periodontitis. Elmanfi et al. [11] explored the possible role of bacterial cyclic dinucleotides in the pathogenesis of periodontitis. Finally, Mei et al. [12] explained the systemic effects of the well-known periodontal pathogen, Porphyromonas gingivalis.
Periodontitis is a multifactorial disease with strong bacterial and host components. Understanding the role of immune regulation during the initiation, progression, and remission of periodontitis will help researchers and clinicians to develop new and novel diagnostic and therapeutic techniques.

Funding

This research received no external funding.

Acknowledgments

I would like to thank the authors, reviewers, and the Pathogens editorial office staff for their exciting contributions and efforts.

Conflicts of Interest

The author declares no conflict of interest.

References

  1. Könönen, E.; Gursoy, M.; Gursoy, U.K. Periodontitis: A Multifaceted Disease of Tooth-Supporting Tissues. J. Clin. Med. 2019, 8, 1135. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  2. Kasnak, G.; Yılmaz, M.; Ünsal, R.B.K.; Polat, N.G.; Fıratlı, E. Evaluation of Gene Polymorphism and Gingival Crevicular Fluid Levels of Matrix Metalloproteinase-3 in a Group of Turkish Periodontitis Patients. Pathogens 2021, 10, 1260. [Google Scholar] [CrossRef] [PubMed]
  3. Esberg, A.; Johansson, A.; Claesson, R.; Johansson, I. 43-Year Temporal Trends in Immune Response to Oral Bacteria in a Swedish Population. Pathogens 2020, 9, 544. [Google Scholar] [CrossRef] [PubMed]
  4. Gürsoy, U.K.; Salli, K.; Söderling, E.; Gürsoy, M.; Hirvonen, J.; Ouwehand, A.C. Regulation of hBD-2, hBD-3, hCAP18/LL37, and Proinflammatory Cytokine Secretion by Human Milk Oligosaccharides in an Organotypic Oral Mucosal Model. Pathogens 2021, 10, 739. [Google Scholar] [CrossRef] [PubMed]
  5. Lundtorp-Olsen, C.; Enevold, C.; Juel Jensen, C.A.; Stofberg, S.N.; Twetman, S.; Belstrøm, D. Impact of Probiotics on the Salivary Microbiota and Salivary Levels of Inflammation-Related Proteins during Short-Term Sugar Stress: A Randomized Controlled Trial. Pathogens 2021, 10, 392. [Google Scholar] [CrossRef] [PubMed]
  6. Lundtorp-Olsen, C.; Enevold, C.; Twetman, S.; Belstrøm, D. Probiotics Do Not Alter the Long-Term Stability of the Supragingival Microbiota in Healthy Subjects: A Randomized Controlled Trial. Pathogens 2021, 10, 391. [Google Scholar] [CrossRef] [PubMed]
  7. Elmanfi, S.; Sintim, H.O.; Zhou, J.; Gürsoy, M.; Könönen, E.; Gürsoy, U.K. Activation of Gingival Fibroblasts by Bacterial Cyclic Dinucleotides and Lipopolysaccharide. Pathogens 2020, 9, 792. [Google Scholar] [CrossRef] [PubMed]
  8. Gürsoy, U.K.; Fteita, D.; Bikker, F.J.; Grande, M.A.; Nazmi, K.; Gürsoy, M.; Könönen, E.; Belstrøm, D. Elevated Baseline Salivary Protease Activity May Predict the Steadiness of Gingival Inflammation During Periodontal Healing: A 12-Week Follow-Up Study on Adults. Pathogens 2020, 9, 751. [Google Scholar] [CrossRef] [PubMed]
  9. Celik, D.; Kantarci, A. Vascular Changes and Hypoxia in Periodontal Disease as a Link to Systemic Complications. Pathogens 2021, 10, 1280. [Google Scholar] [CrossRef] [PubMed]
  10. Grant, M.M. Pyruvate Kinase, Inflammation and Periodontal Disease. Pathogens 2021, 10, 784. [Google Scholar] [CrossRef] [PubMed]
  11. Elmanfi, S.; Yilmaz, M.; Ong, W.W.S.; Yeboah, K.S.; Sintim, H.O.; Gürsoy, M.; Könönen, E.; Gürsoy, U.K. Bacterial Cyclic Dinucleotides and the cGAS-cGAMP-STING Pathway: A Role in Periodontitis? Pathogens 2021, 10, 675. [Google Scholar] [CrossRef] [PubMed]
  12. Mei, F.; Xie, M.; Huang, X.; Long, Y.; Lu, X.; Wang, X.; Chen, L. Porphyromonas gingivalis and Its Systemic Impact: Current Status. Pathogens 2020, 9, 944. [Google Scholar] [CrossRef] [PubMed]
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Gürsoy, U.K. Editorial for the Special Issue: Oral Immunology and Periodontitis. Pathogens 2022, 11, 564. https://doi.org/10.3390/pathogens11050564

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Gürsoy UK. Editorial for the Special Issue: Oral Immunology and Periodontitis. Pathogens. 2022; 11(5):564. https://doi.org/10.3390/pathogens11050564

Chicago/Turabian Style

Gürsoy, Ulvi K. 2022. "Editorial for the Special Issue: Oral Immunology and Periodontitis" Pathogens 11, no. 5: 564. https://doi.org/10.3390/pathogens11050564

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Gürsoy, U. K. (2022). Editorial for the Special Issue: Oral Immunology and Periodontitis. Pathogens, 11(5), 564. https://doi.org/10.3390/pathogens11050564

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