Department of Pediatric, Faculty of Dentistry, Karadeniz Technical University, Trabzon, Turkey.
Department of Biostatistics and Medical Informatics, Karadeniz Technical University, Trabzon, Turkey.
Comput Methods Programs Biomed. 2021 Nov;212:106454. doi: 10.1016/j.cmpb.2021.106454. Epub 2021 Oct 8.
Tooth decay is a common chronic disease that causes pain, tooth loss, malnutrition, anxiety and significantly affects half of the world's population. Streptococcus mutans (S.mutans), is considered the main pathogen causing tooth decay. Sortase A (SrtA), one of the surface proteins of S. mutans, is a potential target in the development of antimicrobial and caries prevention agents for preventing infections associated with biofilm formation. Recently, various SrtA inhibitors, including small molecules and natural product, especially, trans-chalcone, chlorhexidine (CHX) and flavonoid compounds, which exhibit effective inhibition against SrtA, have been identified. However, due to the limited number of inhibitors, multi-drug resistance and side-effects the discovery of new inhibitors for SrtA is essential.
In this case, various compounds aimed at the target enzyme underwent high-throughput screening with small molecule libraries. For this screening of a total of 178 compounds, 163 were found to be pharmacokinetically suitable by performing an absorption, distribution, metabolism, and excretion (ADME) analysis. Molecular docking was then applied to investigate the interaction mechanism among these suitable compounds and the target enzyme structure at the molecular level.
According to the results of the study, six compounds (CHEMBL243796 (kurarinone), CHEMBL2180472, CHEMBL3335591, CHEMBL373249, CHEMBL1395334, CHEMBL253467 (Isobavachalcone)) exhibited lower docking scores (-7.18, -6.59, -6.53, -6.47, -6.43, and -6.39 kcal/mol, respectively) against S. mutans SrtA than the positive control CHX (-6.29 kcal/mol). Finally, the 100 ns molecular dynamic simulations and binding free energy calculations were performed for the structure stability analysis of the enzyme with CHEMBL243796 (kurarinone), which showed the lowest docking score. As a result of these studies, the stability of the critical interactions between kurarinone and the target enzyme was preserved during the simulation time.
These results indicate that flavonoid and chalcone scaffold compounds are clinically more reliable and potent than CHX as novel inhibitory agents for inhibiting oral biofilm formation. These finding can provide important contribution to the future clinical trials in the development of therapeutically useful inhibitors of SrtA by virtually screening several chemical compounds more rapidly to select suitable compounds for the prevention and treatment of dental caries.
龋齿是一种常见的慢性疾病,会引起疼痛、牙齿脱落、营养不良、焦虑等问题,严重影响了全球一半以上的人口。变形链球菌(S.mutans)被认为是导致龋齿的主要病原体。天冬酰胺酰基内肽酶 A(SrtA)是变形链球菌表面蛋白之一,是开发抗微生物和防龋剂以预防与生物膜形成相关感染的潜在靶点。最近,已经鉴定出多种 SrtA 抑制剂,包括小分子和天然产物,特别是反式查尔酮、洗必泰(CHX)和黄酮类化合物,它们对 SrtA 表现出有效的抑制作用。然而,由于抑制剂数量有限、多药耐药性和副作用,发现新的 SrtA 抑制剂至关重要。
在本案例中,针对目标酶的各种化合物在小分子文库中进行了高通量筛选。在总共 178 种化合物的筛选中,通过进行吸收、分布、代谢和排泄(ADME)分析,发现 163 种化合物在药代动力学上适合。然后应用分子对接来研究这些合适的化合物与目标酶结构在分子水平上的相互作用机制。
根据研究结果,六种化合物(CHEMBL243796(苦参酮)、CHEMBL2180472、CHEMBL3335591、CHEMBL373249、CHEMBL1395334、CHEMBL253467(异甘草素查尔酮))对 S. mutans SrtA 的对接评分(-7.18、-6.59、-6.53、-6.47、-6.43 和-6.39 kcal/mol,分别)低于阳性对照 CHX(-6.29 kcal/mol)。最后,对与 S. mutans SrtA 对接评分最低的 CHEMBL243796(苦参酮)进行了 100 ns 分子动力学模拟和结合自由能计算,以进行酶结构稳定性分析。这些研究表明,苦参酮与靶酶之间的关键相互作用在模拟时间内保持稳定。
这些结果表明,黄酮类和查尔酮类骨架化合物比 CHX 更具临床可靠性和效力,可作为抑制口腔生物膜形成的新型抑制因子。这些发现可以为 SrtA 治疗性有用抑制剂的未来临床试验提供重要贡献,通过虚拟筛选更快地筛选出几种化学化合物,以选择合适的化合物用于预防和治疗龋齿。
