An optimized caries model of Streptococcus mutans in rats and its application for evaluating prophylactic vaccines.

IF 4.1 4区 医学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Human Vaccines & Immunotherapeutics Pub Date : 2024-12-31 Epub Date: 2024-05-17 DOI:10.1080/21645515.2024.2345943
Bowen Liu, Min Li, Xian Li, Jingyi Yang, Huimin Yan
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Abstract

Dental caries is a prevalent oral disease that mainly results from Streptococcus mutans. Susceptibility to S. mutans decreased rapidly after weaning in a well-known rat model. However, owing to the lack of time to establish protective immunity ahead of challenge, the weaning rat model is suboptimal for assessing prophylactic vaccines against S. mutans infection. In this study, we found that, in adult rats, S. mutans cultured under air-restricted conditions showed dramatically increased colonization efficacy and accelerated development of dental caries compared with those cultured under air-unrestricted conditions. We propose that S. mutans cultured under air-restricted conditions can be used to develop an optimal caries model, especially for the evaluation of prophylactic efficacy against S. mutans. Therefore, we used the anti-caries vaccine, KFD2-rPAc, to reevaluate the protection against the challenge of S. mutans. In immunized rats, rPAc-specific protective antibodies were robustly elicited by KFD2-rPAc before the challenge. In addition to inhibiting the initial and long-term colonization of S. mutans in vivo, KFD2-rPAc immunization showed an 83% inhibitory efficacy against the development of caries, similar to that previously evaluated in a weaning rat model. These results demonstrate that culturing under air-restricted conditions can promote S. mutans infection in adult rats, thereby helping establish a rat infection model to evaluate the prophylactic efficacy of vaccines and anti-caries drugs.

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优化的大鼠变异链球菌龋齿模型及其在评估预防性疫苗中的应用。
龋齿是一种常见的口腔疾病,主要由变异链球菌引起。在一种著名的大鼠模型中,对变异链球菌的易感性在断奶后迅速下降。然而,由于断奶后的大鼠缺乏时间来建立保护性免疫,因此断奶后的大鼠模型并不适合用来评估预防性疫苗对变异链球菌感染的效果。在这项研究中,我们发现,与在空气不受限制的条件下培养的大鼠相比,在空气受限制的条件下培养的成年大鼠中,变异杆菌的定植效果显著提高,龋齿的发展速度加快。我们建议,在空气限制条件下培养的变异杆菌可用于开发最佳龋齿模型,尤其是用于评估对变异杆菌的预防效果。因此,我们使用抗龋疫苗 KFD2-rPAc 来重新评估对变异杆菌挑战的保护作用。在免疫大鼠中,KFD2-rPAc能在挑战前激发出强效的rPAc特异性保护抗体。KFD2-rPAc 免疫除了能抑制变异杆菌在体内的初始和长期定植外,对龋齿发展的抑制效果也达到了 83%,与之前在断奶大鼠模型中评估的效果相似。这些结果表明,在空气受限的条件下培养可促进成年大鼠感染变异杆菌,从而有助于建立大鼠感染模型,以评估疫苗和抗龋药物的预防效果。
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来源期刊
Human Vaccines & Immunotherapeutics
Human Vaccines & Immunotherapeutics BIOTECHNOLOGY & APPLIED MICROBIOLOGY-IMMUNOLOGY
CiteScore
7.90
自引率
8.30%
发文量
489
审稿时长
3-6 weeks
期刊介绍: (formerly Human Vaccines; issn 1554-8619) Vaccine research and development is extending its reach beyond the prevention of bacterial or viral diseases. There are experimental vaccines for immunotherapeutic purposes and for applications outside of infectious diseases, in diverse fields such as cancer, autoimmunity, allergy, Alzheimer’s and addiction. Many of these vaccines and immunotherapeutics should become available in the next two decades, with consequent benefit for human health. Continued advancement in this field will benefit from a forum that can (A) help to promote interest by keeping investigators updated, and (B) enable an exchange of ideas regarding the latest progress in the many topics pertaining to vaccines and immunotherapeutics. Human Vaccines & Immunotherapeutics provides such a forum. It is published monthly in a format that is accessible to a wide international audience in the academic, industrial and public sectors.
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