The Effect of Enzymatic Treatment with Mutanase, Beta-Glucanase, and DNase on a Saliva-Derived Biofilm Model.

IF 2.9 2区 医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE Caries Research Pub Date : 2024-01-01 Epub Date: 2023-12-28 DOI:10.1159/000535980
Pernille Dukanovic Rikvold, Lea Benedicte Skov Hansen, Rikke Louise Meyer, Mette Rose Jørgensen, Manish K Tiwari, Sebastian Schlafer
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Abstract

Introduction: The dental biofilm matrix is an important determinant of virulence for caries development and comprises a variety of extracellular polymeric substances that contribute to biofilm stability. Enzymes that break down matrix components may be a promising approach to caries control, and in light of the compositional complexity of the dental biofilm matrix, treatment with multiple enzymes may enhance the reduction of biofilm formation compared to single enzyme therapy. The present study investigated the effect of the three matrix-degrading enzymes mutanase, beta-glucanase, and DNase, applied separately or in combinations, on biofilm prevention and removal in a saliva-derived in vitro-grown model.

Methods: Biofilms were treated during growth to assess biofilm prevention or after 24 h of growth to assess biofilm removal by the enzymes. Biofilms were quantified by crystal violet staining and impedance-based real-time cell analysis, and the biofilm structure was visualized by confocal microscopy and staining of extracellular DNA (eDNA) and polysaccharides.

Results: The in vitro model was dominated by Streptococcus spp., as determined by 16S rRNA gene amplicon sequencing. All tested enzymes and combinations had a significant effect on biofilm prevention, with reductions of >90% for mutanase and all combinations including mutanase. Combined application of DNase and beta-glucanase resulted in an additive effect (81.0% ± 1.3% SD vs. 36.9% ± 21.9% SD and 48.2% ± 14.9% SD). For biofilm removal, significant reductions of up to 73.2% ± 5.5% SD were achieved for combinations including mutanase, whereas treatment with DNase had no effect. Glucans, but not eDNA decreased in abundance upon treatment with all three enzymes.

Conclusion: Multi-enzyme treatment is a promising approach to dental biofilm control that needs to be validated in more diverse biofilms.

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用突变酶、β-葡聚糖酶和 DNase 对唾液生物膜模型进行酶处理的效果。
介绍:牙齿生物膜基质是龋病发展毒力的重要决定因素,由多种细胞外高分子物质组成,有助于生物膜的稳定性。分解基质成分的酶可能是一种很有前景的龋病控制方法,鉴于牙齿生物膜基质成分的复杂性,与单一酶疗法相比,多种酶疗法可能会增强减少生物膜形成的效果。本研究调查了三种基质降解酶--突变酶、β-葡聚糖酶和 DNase--的单独或组合应用对唾液衍生体外生长模型中生物膜的预防和清除效果:方法:在生物膜生长过程中对其进行处理,以评估生物膜的预防效果;或在生物膜生长 24 小时后对其进行处理,以评估酶对生物膜的清除效果。通过水晶紫染色和基于阻抗的实时细胞分析对生物膜进行量化,并通过共聚焦显微镜和细胞外 DNA(eDNA)及多糖染色观察生物膜结构:结果:通过 16S rRNA 基因扩增片段测序确定,体外模型以链球菌为主。所有测试过的酶和组合都对预防生物膜有显著效果,其中突变酶和包括突变酶在内的所有组合都能减少 90% 以上的生物膜。联合使用 DNase 和 beta-葡聚糖酶会产生叠加效应(81.0%±1.3% SD vs. 36.9%±21.9% SD 和 48.2%±14.9% SD)。在清除生物膜方面,包括突变酶在内的组合可显著减少高达 73.2%±5.5% SD 的生物膜,而使用 DNase 处理则没有效果。使用所有三种酶处理后,葡聚糖的丰度下降,但 eDNA 的丰度没有下降:多酶处理是一种很有前景的牙科生物膜控制方法,需要在更多样化的生物膜中进行验证。
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来源期刊
Caries Research
Caries Research 医学-牙科与口腔外科
CiteScore
6.30
自引率
7.10%
发文量
34
审稿时长
6-12 weeks
期刊介绍: ''Caries Research'' publishes epidemiological, clinical and laboratory studies in dental caries, erosion and related dental diseases. Some studies build on the considerable advances already made in caries prevention, e.g. through fluoride application. Some aim to improve understanding of the increasingly important problem of dental erosion and the associated tooth wear process. Others monitor the changing pattern of caries in different populations, explore improved methods of diagnosis or evaluate methods of prevention or treatment. The broad coverage of current research has given the journal an international reputation as an indispensable source for both basic scientists and clinicians engaged in understanding, investigating and preventing dental disease.
期刊最新文献
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