Searching Deep and Wide: Advances in the Molecular Understanding of Dental Caries and Periodontal Disease.

Q1 Medicine
K Divaris
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引用次数: 0

Abstract

During the past decades, remarkable progress has been made in the understanding of the molecular basis of the 2 most common oral diseases, dental caries and periodontal disease. Improvements in our knowledge of the diseases' underlying biology have illuminated previously unrecognized aspects of their pathogenesis. Importantly, the key role of the oral (supragingival and subgingival) microbiome is now well recognized, and both diseases are now best understood as dysbiotic. From a host susceptibility standpoint, some progress has been made in dissecting the "hyperinflammatory" trait and other pathways of susceptibility underlying periodontitis, and novel susceptibility loci have been reported for dental caries. Nevertheless, there is a long road to the translation of these findings and the realization of precision oral health. There is promise and hope that the rapidly increasing capacity of generating multiomics data layers and the aggregation of study samples and cohorts comprising thousands of participants will accelerate the discovery and translation processes. A first key element in this process has been the identification and interrogation of biologically informed disease traits-these "deep" or "precise" traits have the potential of revealing biologically homogeneous disease signatures and genetic susceptibility loci that might present with overlapping or heterogeneous clinical signs. A second key element has been the formation of international consortia with the goals of combining and harmonizing oral health data of thousands of individuals from diverse settings-these "wide" collaborative approaches leverage the power of large sample sizes and are aimed toward the discovery or validation of genetic influences that would otherwise be impossible to detect. Importantly, advancements via these directions require an unprecedented engagement of systems biology and team science models. The article highlights novel insights into the molecular basis of dental caries and chronic periodontitis that have been gained from recent and ongoing studies involving "deep" and "wide" analytical approaches.

深入和广泛的探索:龋病和牙周病的分子认识进展
在过去的几十年里,人们对龋齿和牙周病这两种最常见的口腔疾病的分子基础的了解取得了显著的进展。我们对这些疾病的潜在生物学知识的改进已经阐明了以前未被认识到的发病机制方面。重要的是,口腔(龈上和龈下)微生物组的关键作用现在得到了很好的认识,这两种疾病现在都被最好地理解为益生菌失调。从宿主易感性的角度来看,在分析牙周炎的“高炎症”特征和其他易感性途径方面取得了一些进展,并且已经报道了龋齿的新易感性位点。然而,这些发现的翻译和实现精确口腔健康还有很长的路要走。产生多组学数据层的能力迅速增加,研究样本和由数千名参与者组成的队列的聚集将加速发现和翻译过程,这是有希望的。这个过程的第一个关键因素是识别和询问生物学上已知的疾病特征——这些“深层”或“精确”的特征有可能揭示生物学上同质的疾病特征和可能呈现重叠或异质临床症状的遗传易感位点。第二个关键因素是国际联盟的形成,其目标是结合和协调来自不同环境的成千上万个人的口腔健康数据——这些“广泛”的合作方法利用了大样本的力量,旨在发现或验证遗传影响,否则就不可能检测到。重要的是,通过这些方向的进步需要前所未有的系统生物学和团队科学模型的参与。这篇文章强调了对龋齿和慢性牙周炎分子基础的新见解,这些见解来自于最近和正在进行的涉及“深度”和“广泛”分析方法的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advances in Dental Research
Advances in Dental Research Medicine-Medicine (all)
CiteScore
8.20
自引率
0.00%
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0
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