Department of Dentistry and Oral Health,y, Aarhus University, Aarhus, Denmark.
Caries Res. 2017;51(4):436-442. doi: 10.1159/000477447. Epub 2017 Jul 21.
Extracellular DNA (eDNA) is a major matrix component of many bacterial biofilms. While the presence of eDNA and its role in biofilm stability have been demonstrated for several laboratory biofilms of oral bacteria, there is no data available on the presence and function of eDNA in in vivo grown dental biofilms. This study aimed to determine whether eDNA was part of the matrix in biofilms grown in situ in the absence of sucrose and whether treatment with DNase dispersed biofilms grown for 2.5, 5, 7.5, 16.5, or 24 h. Three hundred biofilms from 10 study participants were collected and treated with either DNase or heat-inactivated DNase for 1 h. The bacterial biovolume was determined with digital image analysis. Staining with TOTO®-1 allowed visualization of eDNA both on bacterial cell surfaces and, with a cloud-like appearance, in the intercellular space. DNase treatment strongly reduced the amount of biofilm in very early stages of growth (up to 7.5 h), but the treatment effect decreased with increasing biofilm age. This study proves the involvement of eDNA in dental biofilm formation and its importance for biofilm stability in the earliest stages. Further research is required to uncover the interplay of eDNA and other matrix components and to explore the therapeutic potential of DNase treatment for biofilm control.
细胞外 DNA(eDNA)是许多细菌生物膜的主要基质成分。虽然已经证明 eDNA 的存在及其在口腔细菌的几种实验室生物膜稳定性中的作用,但在体内生长的牙菌斑生物膜中,eDNA 的存在和功能尚无数据。本研究旨在确定 eDNA 是否是在无蔗糖的情况下原位生长的生物膜基质的一部分,以及用 DNase 处理是否会分散培养 2.5、5、7.5、16.5 或 24 小时的生物膜。从 10 名研究参与者中收集了 300 个生物膜,并使用 DNase 或热失活的 DNase 处理 1 小时。通过数字图像分析确定细菌生物量。使用 TOTO®-1 染色可以在细菌细胞表面和细胞间空间中观察到 eDNA,呈现出云状外观。DNase 处理在生长的早期阶段(长达 7.5 小时)强烈降低了生物膜的量,但随着生物膜年龄的增加,处理效果降低。本研究证明了 eDNA 参与牙菌斑生物膜的形成及其对早期生物膜稳定性的重要性。需要进一步研究以揭示 eDNA 与其他基质成分的相互作用,并探索 DNase 处理对生物膜控制的治疗潜力。
