口腔微生物组的精确再造用于龋齿管理

Q1 Medicine
J L Baker, X He, W Shi
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引用次数: 0

摘要

技术进步彻底改变了我们对人类微生物组复杂性和重要性的理解。这一进展也强调了精准治疗的必要性,因为它强调了与当前广谱治疗模式相关的困境,如生态失调和抗生素耐药性增加。龋齿仍然是世界上最常见的慢性疾病,伴随着巨大的经济和社会负担,尽管有广泛有效的氟化物和卫生方案。在过去的几十年里,人们一直在寻求各种精确的方法来对抗龋齿,包括疫苗、益生菌和抗菌化合物。尽管每种方法的总体概念优势不同,但由于各种原因,目前还没有批准的预防龋齿的精确抗生素疗法。特异性靶向抗微生物肽(STAMP)是将传统抗微生物肽的抗生素部分与靶向结构域结合以提供针对特定生物体的特异性的合成分子。STAMP C16G2结合了来自抗菌药物诺维Spirin G10的杀伤结构域和来自变形链球菌信息素CSP的靶向结构域,旨在提供对变形链球菌的靶向杀伤,变形链球菌被广泛认为是龋齿发病机制中的关键物种。C16G2能够选择性地从复杂的生态系统中清除变异链球菌,同时使密切相关但与健康相关的口腔物种免受伤害。与传统的广谱漱口水相比,这种牙菌斑群落的重塑有望具有显著的优势,因为完整的、存活的群落易于防止病原体的再次感染。在成功评估C16G2治疗的安全性和基本微生物学的I期临床试验之后,几种C16G2制剂的II期试验目前正在进行中。C16G2代表了精准治疗的一个令人兴奋的进步,STAMP平台为开发额外的治疗方法和微生物生态学的整体研究提供了巨大的机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Precision Reengineering of the Oral Microbiome for Caries Management.

Technological advancements have revolutionized our understanding of the complexity and importance of the human microbiome. This progress has also emphasized the need for precision therapeutics, as it has underscored the dilemmas, such as dysbiosis and increasing antibiotic resistance, associated with current, broad-spectrum treatment modalities. Dental caries remains the most common chronic disease worldwide, accompanied by a tremendous financial and social burden, despite widespread and efficacious fluoride and hygienic regimens. Over the past several decades, various precision approaches to combat dental caries, including vaccines, probiotics, and antimicrobial compounds, have been pursued. Despite the distinct overall conceptual strengths of each approach, for various reasons, there are currently no approved precision antibiotic therapeutics to prevent dental caries. Specifically targeted antimicrobial peptides (STAMPs) are synthetic molecules that combine the antibiotic moiety of a traditional antimicrobial peptide with a targeting domain to provide specificity against a particular organism. Conjoining the killing domain from the antimicrobial, novispirin G10, and a targeting domain derived from the Streptococcus mutans pheromone, CSP, the STAMP C16G2 was designed to provide targeted killing of S. mutans, widely considered the keystone species in dental caries pathogenesis. C16G2 was able to selectively eliminate S. mutans from complex ecosystems while leaving closely related, yet health-associated, oral species unharmed. This remodeling of the dental plaque community is expected to have significant advantages compared to conventional broad-spectrum mouthwashes, as the intact, surviving community is apt to prevent reinfection by pathogens. Following successful phase I clinical trials that evaluated the safety and basic microbiology of C16G2 treatments, the phase II trials of several C16G2 formulations are currently in progress. C16G2 represents an exciting advance in precision therapeutics, and the STAMP platform provides vast opportunities for both the development of additional therapeutics and the overall study of microbial ecology.

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来源期刊
Advances in Dental Research
Advances in Dental Research Medicine-Medicine (all)
CiteScore
8.20
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