Cugini Carla, Ramasubbu Narayanan, Tsiagbe Vincent K, Fine Daniel H
Department of Oral Biology, Rutgers School of Dental Medicine, Newark, NJ, United States.
Front Microbiol. 2021 Mar 5;12:617485. doi: 10.3389/fmicb.2021.617485. eCollection 2021.
The significance of microbiology and immunology with regard to caries and periodontal disease gained substantial clinical or research consideration in the mid 1960's. This enhanced emphasis related to several simple but elegant experiments illustrating the relevance of bacteria to oral infections. Since that point, the understanding of oral diseases has become increasingly sophisticated and many of the original hypotheses related to disease causality have either been abandoned or amplified. The COVID pandemic has reminded us of the importance of history relative to infectious diseases and in the words of Churchill "those who fail to learn from history are condemned to repeat it." This review is designed to present an overview of broad general directions of research over the last 60 years in oral microbiology and immunology, reviewing significant contributions, indicating emerging foci of interest, and proposing future directions based on technical advances and new understandings. Our goal is to review this rich history (standard microbiology and immunology) and point to potential directions in the future (omics) that can lead to a better understanding of disease. Over the years, research scientists have moved from a position of downplaying the role of bacteria in oral disease to one implicating bacteria as true pathogens that cause disease. More recently it has been proposed that bacteria form the ecological first line of defense against "foreign" invaders and also serve to train the immune system as an acquired host defensive stimulus. While early immunological research was focused on immunological exposure as a modulator of disease, the "hygiene hypothesis," and now the "old friends hypothesis" suggest that the immune response could be trained by bacteria for long-term health. Advanced "omics" technologies are currently being used to address changes that occur in the host and the microbiome in oral disease. The "omics" methodologies have shaped the detection of quantifiable biomarkers to define human physiology and pathologies. In summary, this review will emphasize the role that commensals and pathobionts play in their interaction with the immune status of the host, with a prediction that current "omic" technologies will allow researchers to better understand disease in the future.
20世纪60年代中期,微生物学和免疫学在龋齿及牙周疾病方面的重要性得到了大量临床或研究关注。这种关注度的提升与若干简单却精妙的实验有关,这些实验阐明了细菌与口腔感染的相关性。自那时起,人们对口腔疾病的理解日益复杂,许多与疾病因果关系相关的最初假说要么被摒弃,要么得到了扩充。新冠疫情让我们想起了历史对于传染病的重要性,用丘吉尔的话说就是“那些不吸取历史教训的人注定要重蹈覆辙”。本综述旨在概述过去60年口腔微生物学和免疫学研究的大致总体方向,回顾重大贡献,指出新出现的关注焦点,并基于技术进步和新认识提出未来方向。我们的目标是回顾这段丰富的历史(标准微生物学和免疫学),并指出未来(组学)的潜在方向,从而更好地理解疾病。多年来,研究科学家们已从轻视细菌在口腔疾病中的作用,转变为认为细菌是导致疾病的真正病原体。最近有人提出,细菌构成了抵御“外来”入侵者的生态第一道防线,还能作为一种后天获得的宿主防御刺激来训练免疫系统。早期免疫学研究聚焦于免疫暴露作为疾病调节因素,“卫生假说”以及现在的“老朋友假说”则表明,免疫反应可由细菌训练以实现长期健康。先进的“组学”技术目前正用于研究口腔疾病中宿主和微生物群发生的变化。“组学”方法已塑造了可量化生物标志物的检测,以界定人类生理和病理状况。总之,本综述将强调共生菌和致病共生菌在与宿主免疫状态相互作用中所起的作用,并预测当前的“组学”技术将使研究人员在未来能更好地理解疾病。
