Idir Fouzia, Van Ginneken Sybren, Coppola Guglielmo A, Grenier Daniel, Steenackers Hans P, Bendali Farida
Laboratoire de Microbiologie Appliquée, Faculté des Sciences de la Nature et de la Vie, Université de Bejaia, Bejaia, Algeria.
MiCA Lab, Centre of Microbial and Plant Genetics, KU Leuven, Leuven, Belgium.
Front Microbiol. 2022 Nov 2;13:999839. doi: 10.3389/fmicb.2022.999839. eCollection 2022.
Dental caries and periodontal diseases remain a challenge for oral health, especially given the lack of effective and safe treatment options that are currently available. Against the backdrop of an ongoing antimicrobial resistance crisis, a renewed interest in traditional medicinal plants as a potential source of new bioactive compounds has surfaced. In this context, we systematically screened the antimicrobial and anti-biofilm activities of both ethanolic and aqueous extracts of nine Algerian medicinal plants ( and ). To evaluate the activity spectrum of the extracts, the screening was carried out against an extensive collection of , and isolates recovered from dental plaques of Algerian patients. Broad-spectrum antimicrobial and anti-biofilm properties were observed, especially among ethanolic extracts, which marks them as a promising source for bioactive compounds to control oral biofilms. The ethanolic extract of , which showed the most promising effects in the initial screening, was further characterized. We first verified the biocompatibility of this extract using human oral keratinocytes and selected a range of non-cytotoxic concentrations (0.195-0.781 mg/ml) to further validate its anti-biofilm and anti-virulence potential. At these concentrations, the extract not only prevented biofilm formation (10.04 ± 0.75-87.91 ± 9.08% of reduction) of most dental plaque isolates on a polystyrene surface, but also significantly reduced their adherence to hydroxyapatite (34.58 ± 9.09-62.77 ± 0.95%). Moreover, the extract showed curative potential against mature biofilms grown under conditions mimicking the oral niche. In addition to its anti-biofilm properties, we observed an inhibition of glucosyltransferase activity, a reduction in acidogenesis and a downregulation in the expression of multiple virulence-associated genes for extract-treated samples. Since anti-virulence properties are more robust to the development of resistance, they provide an attractive complementation to the antimicrobial activities of the extract. Thymol was identified as an important active compound of the extract using GC-MS analysis, but synergy with other compounds was also detected, suggesting a potential advantage of using the whole extract over purified thymol. Further research into the bioactive compounds of the ethanolic extract could yield novel products to fight dental caries.
龋齿和牙周疾病仍然是口腔健康面临的挑战,特别是考虑到目前缺乏有效且安全的治疗选择。在持续的抗菌药物耐药性危机背景下,人们对传统药用植物作为新生物活性化合物潜在来源的兴趣再度兴起。在此背景下,我们系统地筛选了九种阿尔及利亚药用植物(……)的乙醇提取物和水提取物的抗菌及抗生物膜活性。为评估提取物的活性谱,针对从阿尔及利亚患者牙菌斑中分离出的大量……、……和……菌株进行了筛选。观察到了广谱抗菌和抗生物膜特性,尤其是在乙醇提取物中,这使其成为控制口腔生物膜的生物活性化合物的有前景来源。在初步筛选中显示出最有前景效果的……乙醇提取物被进一步表征。我们首先使用人口腔角质形成细胞验证了该提取物的生物相容性,并选择了一系列无细胞毒性的浓度(0.195 - 0.781毫克/毫升)来进一步验证其抗生物膜和抗毒力潜力。在这些浓度下,该提取物不仅能防止大多数牙菌斑分离株在聚苯乙烯表面形成生物膜(减少10.04±0.75 - 87.91±9.08%),还能显著降低它们对羟基磷灰石的粘附(34.58±9.09 - 62.77±0.95%)。此外,该提取物对在模拟口腔微环境条件下生长的成熟生物膜显示出治疗潜力。除了其抗生物膜特性外,我们还观察到提取物处理的样本中葡糖基转移酶活性受到抑制、产酸减少以及多个毒力相关基因的表达下调。由于抗毒力特性对耐药性的发展更具抗性,它们为提取物的抗菌活性提供了有吸引力的补充。通过气相色谱 - 质谱分析确定百里香酚是该提取物的重要活性化合物,但也检测到与其他化合物的协同作用,这表明使用整个提取物比纯化的百里香酚具有潜在优势。对……乙醇提取物的生物活性化合物进行进一步研究可能会产生对抗龋齿的新型产品。
