The action of microbial collagenases in dentinal matrix degradation in root caries and potential strategies for its management: a comprehensive state-of-the-art review

BARBOSA, Cecília de Brito; MONICI SILVA, Isabela; DAME-TEIXEIRA, Naile

doi:10.1590/1678-7757-2024-0013

J. Appl. Oral Sci.

2024

DOI: 10.1590/1678-7757-2024-0013

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The action of microbial collagenases in dentinal matrix degradation in root caries and potential strategies for its management: a comprehensive state-of-the-art review

Cecília de Brito BARBOSA,

Isabela MONICI SILVA,

Naile DAME-TEIXEIRA

Abstract: Conventional views associate microbial biofilm with demineralization in root caries (RC) onset, while research on their collagenases role in the breakdown of collagen matrix has been sporadically developed, primarily in vitro. Recent discoveries, however, reveal proteolytic bacteria enrichment, specially Porphyromonas and other periodontitis-associated bacteria in subgingivally extended lesions, suggesting a potential role in RC by the catabolism of dentin organic matrix. Moreover, genes… Show more

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Cited by 2 publications

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Engineering a dysbiotic biofilm model for testing root caries interventions through microbial modulation

Dame‐Teixeira,

El-Gendy,

de Oliveira

et al. 2024

Microbiome

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Background This study aimed to engineer and optimise a dysbiotic biofilm model to develop in vitro root caries for investigating microbial modulation strategies. The model involved growing complex biofilms from a saliva inoculum collected from four volunteers using two strategies. In the first strategy (“pre-treatment strategy”), bovine root slabs were used, and two natural compounds were incorporated at time 0 of the 10-day biofilm experiment, which included sucrose cycles mimicking the cariogenic environment. In the second strategy (“post-treatment strategy”), mature biofilms were grown in a modified Calgary biofilm device coated with collagen and hydroxyapatite for 7 days and then were exposed to the same natural compounds. The metatranscriptome of each biofilm was then determined and analysed. Collagenase activity was examined, and the biofilms and dentine were imaged using confocal and scanning electron microscopy (SEM). Mineral loss and lesion formation were confirmed through micro-computed tomography (μ-CT). Results The pH confirmed the cariogenic condition. In the metatranscriptome, we achieved a biofilm compositional complexity, showing a great diversity of the metabolically active microbiome in both pre- and post-treatment strategies, including reads mapped to microorganisms other than bacteria, such as archaea and viruses. Carbohydrate esterases had increased expression in the post-treated biofilms and in samples without sugar cycles, while glucosyltransferases were highly expressed in the presence of sucrose cycles. Enrichment for functions related to nitrogen compound metabolism and organic cyclic component metabolism in groups without sucrose compared to the sucrose-treated group. Pre-treatment of the roots with cranberry reduced microbial viability and gelatinase (but not collagenase) activity (p < 0.05). SEM images showed the complexity of biofilms was maintained, with a thick extracellular polysaccharides layer. Conclusions This root caries model was optimized to produce complex cariogenic biofilms and root caries-like lesions, and could be used to test microbial modulation in vitro. Pre-treatments before biofilm development and cariogenic challenges were more effective than post-treatments. The clinical significance lies in the potential to apply the findings to develop varnish products for post-professional tooth prophylaxis, aiming at implementing a strategy for dysbiosis reversal in translational research.

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Engineering a dysbiotic biofilm model for testing root caries interventions through microbial modulation

Dame‐Teixeira,

El-Gendy,

de Oliveira

et al. 2024

Microbiome

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show abstract

Assessement of Effectiveness of Teeth Fillings Modified with Silver Nanoparticles at Low Resistance of Hard Tissues

Grin,

Platova,

Dukaev

et al. 2024

Ann Dent Spec

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The action of microbial collagenases in dentinal matrix degradation in root caries and potential strategies for its management: a comprehensive state-of-the-art review

Cited by 2 publications

References 83 publications

Engineering a dysbiotic biofilm model for testing root caries interventions through microbial modulation

Engineering a dysbiotic biofilm model for testing root caries interventions through microbial modulation

Assessement of Effectiveness of Teeth Fillings Modified with Silver Nanoparticles at Low Resistance of Hard Tissues

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