Role of Actinomyces species in oral Biofilm Formation and Dental Plaque-Related Diseases
DOI:
https://doi.org/10.62497/IRABCS.2024.50Keywords:
periodontal diseases, Streptococcus mutans, oral microbiome, dental plaque, biofilm formation, ActinomycesAbstract
Introduction: Actinomyces species play a major role in the development of oral biofilms and disorders associated with dental plaque. The purpose of this study was to look into their interactions, prevalence, and ability to form biofilms in dental plaque.
Methodology: Dental plaque samples from 78 participants in a six-month cross-sectional research at KCD Peshawar were examined for Actinomyces species. The microtiter plate test was used to measure the production of biofilms, and statistical analyses were performed to investigate the relationships between Actinomyces presence, plaque severity, and biofilm formation capacity.
Results: A total of 79.5% of samples contained Actinomyces species, with Actinomyces naeslundii being the most common (72.6%). Actinomyces was found to be significantly correlated with the severity of the plaque (χ² = 8.92, p = 0.012). In comparison to mild/moderate plaque (mean OD570 = 0.52, t(60) = 2.78, p = 0.007), isolates from severe plaque (mean OD570 = 0.61) formed more biofilms. Increased biofilm biomass was obtained through co-cultivation with Streptococcus mutans, particularly in combinations involving A. israelii and S. mutans.
Conclusion: Actinomyces species are important in the development and severity of dental plaque, with more severe cases being associated with higher biofilm-forming capacity. Their relationships to Streptococcus mutans increase the pathogenicity of biofilms. Actinomyces targeting may be able to reduce tooth plaque-related illnesses. Larger populations and biological reasons for successful interventions should be investigated in future studies.
Downloads
References
Izadi N, Keikha M, Ghazvini K, Karbalaei M. Oral antimicrobial peptides and new therapeutic strategies for plaque-mediated diseases. Gene Reports. 2020 Dec 1;21:100811.
Kurtzman GM, Horowitz RA, Johnson R, Prestiano RA, Klein BI. The systemic oral health connection: Biofilms. Medicine. 2022 Nov 18;101(46):e30517.
Shoker NS, Hamila NA, Hamid AM, El Madboly LA. Evaluation of probiotic effect of Actinomyces species on dental caries: an experimental study. Tanta Dental Journal. 2021 Jan 1;18(1):7-11.
Zhu Y, Wang Y, Zhang S, Li J, Li X, Ying Y, Yuan J, Chen K, Deng S, Wang Q. Association of polymicrobial interactions with dental caries development and prevention. Frontiers in Microbiology. 2023 May 18;14:1162380.
Soria S, Angulo-Bejarano PI, Sharma A. Biofilms: Development and molecular interaction of microbiome in the human oral cavity. InNew and Future Developments in Microbial Biotechnology and Bioengineering: Microbial Biofilms 2020 Jan 1 (pp. 61-75). Elsevier.
Zhao F, Dong T, Yuan KY, Wang NJ, Xia FZ, Liu D, Wang ZM, Ma R, Lu YL, Huang ZW. Shifts in the bacterial community of supragingival plaque associated with metabolic-associated fatty liver disease. Frontiers in Cellular and Infection Microbiology. 2020 Dec 15;10:581888.
Carmello JC, de Annunzio SR, Fontana CR. Composition, Structure, and Formation of Biofilms Constituted by Periodontopathogenic Microorganisms. Bacterial Biofilms. 2020 Oct 7:1755-315.
Li Q, Zhou F, Su Z, Li Y, Li J. Corynebacterium matruchotii: a confirmed calcifying bacterium with a potentially important role in the supragingival plaque. Frontiers in Microbiology. 2022 Jul 6;13:940643.
Zhang Y, Wang X, Li H, Ni C, Du Z, Yan F. Human oral microbiota and its modulation for oral health. Biomedicine & Pharmacotherapy. 2018 Mar 1;99:883-93.
Dornelas-Figueira LM, Ricomini Filho AP, Junges R, Åmdal HA, Cury AA, Petersen FC. In Vitro Impact of Fluconazole on Oral Microbial Communities, Bacterial Growth, and Biofilm Formation. Antibiotics. 2023 Sep 11;12(9):1433.
Astasov-Frauenhoffer M, Kulik EM. Cariogenic biofilms and caries from birth to old age. Oral Biofilms. 2021;29:53-64.
Haque MM, Yerex K, Kelekis-Cholakis A, Duan K. Advances in novel therapeutic approaches for periodontal diseases. BMC Oral Health. 2022 Nov 15;22(1):492.
Chen D, Chew D, Xiang Q, Lam T, Dai Y, Liu J, Wang L, He T, Strand R, Zhang X, Lim L. Interactions and effects of a stannous-containing sodium fluoride dentifrice on oral pathogens and the oral microbiome. Frontiers in Microbiology. 2024 Feb 15;15:1327913.
Atasever İşler A, Erdem A. Effects of different orthodontic appliances on Actinomyces spp. Asian Journal of Medical and Biological Research. 2024;10(1).
Lee ES, de Josselin de Jong E, Kim BI. Detection of dental plaque and its potential pathogenicity using quantitative light‐induced fluorescence. Journal of Biophotonics. 2019 Jul;12(7):e201800414.
Frias-Lopez J, Duran-Pinedo AE. The function of the oral microbiome in health and disease. Emerging Therapies in Periodontics. 2020:141-73.
Kurek-Gorecka A, Walczyńska-Dragon K, Felitti R, Nitecka-Buchta A, Baron S, Olczyk P. The influence of propolis on dental plaque reduction and the correlation between dental plaque and severity of COVID-19 complications—a literature review. Molecules. 2021 Sep 11;26(18):5516.
Milho C, Silva J, Guimarães R, Ferreira IC, Barros L, Alves MJ. Antimicrobials from medicinal plants: an emergent strategy to control oral biofilms. Applied Sciences. 2021 Apr 28;11(9):4020.
Balolong MP, Mendoza MA, Balolong MP, Mendoza MA. Understanding Oral Diseases: Exploring Opportunities from Filipino Oral Microbiome Research. Dent. Caries. 2021 Feb 8.
Chathoth KN. Effect of environmental signals on the development of oral biofilm (Doctoral dissertation, Université de Rennes).
Downloads
Published
Issue
Section
Categories
License
Copyright (c) 2024 Palwasha Akbar, Naima Salahuddin, Zeeshan Ahmad, Syed Zeyad shah, Fareeha shah, Dure Maknoon (Author)
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Authors retain copyright to their work published in the IRABCS journal under the Creative Commons Attribution Non-Commercial No Derivatives License (CC BY-NC-ND 4.0).