三种变异链球菌菌株成熟生物膜中的实时产酸和细胞外基质形成,特别是木糖醇

IF 5.9 Q1 MICROBIOLOGY Biofilm Pub Date : 2024-08-28 DOI:10.1016/j.bioflm.2024.100219
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引用次数: 0

摘要

背景致酸性和细胞外基质(ECM)的产生是龋齿相关细菌(如生活在牙齿表面生物膜中的变异链球菌)的重要毒力因素。材料和方法在这项体外研究中,我们采用实时检测法跟踪了三种变异链球菌菌株在生长培养基和唾液中的生物膜形成和 pH 值下降情况,以及成熟生物膜内部的酸中和情况。结果与生物膜的组成进行了比较。通过实时 pH 值测量和共聚焦显微镜评估了不可发酵多元醇木糖醇对成熟生物膜中酸的产生和酸中和的影响。结果实时 pH 值测量与生物膜积累测定相结合,发现 pH 值下降和生物膜积累与生长介质有关,酸的产生和生物膜的形成与菌株有关,但缓冲液通过 ECM 的扩散与菌株无关。木糖醇的存在降低了所有菌株在生物膜形成过程中的 pH 值下降。此外,对于 Ingbritt 菌株,木糖醇减少了生物膜中 ECM 的数量,从而提高了缓冲液暴露后生物膜内的酸中和速率。此外,我们的研究结果还提出了木糖醇作用的新机制。在接触木糖醇后,所观察到的突变杆状病毒 ECM 渗透性的增加可能会使酸中和唾液到达生物膜的更深层,从而在一定程度上解释了之前临床观察到的频繁使用木糖醇后牙菌斑致酸性降低的原因。
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Real-time acid production and extracellular matrix formation in mature biofilms of three Streptococcus mutans strains with special reference to xylitol

Background

Acidogenicity and production of an extracellular matrix (ECM) are important virulence factors for the dental caries-associated bacteria, such as Streptococcus mutans, that live in biofilms on tooth surface. The ECM protects the bacteria from the flushing and buffering effects of saliva resulting in highly acidic microenvironments inside the biofilm.

Materials and methods

In this in vitro study, we applied real-time assays to follow biofilm formation and pH decrease in a growth medium and saliva by three S. mutans strains, as well as acid neutralization inside the mature biofilm. Results were compared with the biofilm composition. Effects of a non-fermentable polyol, xylitol, on acid production and acid neutralization in mature biofilms were evaluated by real-time pH measurements and confocal microscopy.

Results

Combination of real-time pH measurements with biofilm accumulation assays revealed growth media dependent differences in the pH decrease and biofilm accumulation, as well as strain differences in acid production and biofilm formation but not in the buffer diffusion through ECM. The presence of xylitol reduced the pH drop during biofilm formation of all strains. In addition, with strain Ingbritt xylitol reduced the amount of ECM in biofilm, which increased the rate of acid neutralization inside the biofilm after buffer exposure.

Conclusion

Our results stress the importance of biofilm matrix in creating the acidic environment inside a S. mutans biofilm, especially in the presence of saliva. In addition, our results suggest a novel mechanism of xylitol action. The observed increase in the permeability of the S. mutans ECM after xylitol exposure may allow acid-neutralizing saliva to reach deeper layer of the biofilms and thus, in part, explain previous clinical observations of reduced plaque acidogenicity after frequent xylitol use.

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来源期刊
Biofilm
Biofilm MICROBIOLOGY-
CiteScore
7.50
自引率
1.50%
发文量
30
审稿时长
57 days
期刊介绍:
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