Shenzhen Children's Hospital of China Medical University (CMU), Shenzhen, PR China; Department of Stomatology, Shenzhen Children's Hospital, Shenzhen, PR China.
Shenzhen Stomatology Hospital (Pingshan), Southern Medical University, Shenzhen, Guangdong, PR China.
J Dent. 2024 Jul;146:105059. doi: 10.1016/j.jdent.2024.105059. Epub 2024 May 25.
Severe early childhood caries (S-ECC) is highly prevalent, affecting children's oral health. S-ECC development is closely associated with the complex oral microbial microbiome and its microorganism interactions, such as the imbalance of bacteriophages and bacteria. Till now, little is known about oral phageome on S-ECC. Therefore, this study aimed to investigate the potential role of the oral phageome in the pathogenesis of S-ECC.
Unstimulated saliva (2 mL) was collected from 20 children with and without S-ECC for metagenomics analysis. Metagenomics sequencing and bioinformatic analysis were performed to determine the two groups' phageome diversity, taxonomic and functional annotations. Statistical analysis and visualization were performed with R and SPSS Statistics software.
85.7 % of the extracted viral sequences were predicted from phages, in which most phages were classified into Myoviridae, Siphoviridae, and Podoviridae. Alpha diversity decreased, and Beta diversity increased in the S-ECC phageome compared to the healthy group. The abundance of Podoviridae phages increased, and the abundance of Inoviridae, Herelleviridae, and Streptococcus phages decreased in the S-ECC group. Functional annotation revealed increased annotation on glycoside hydrolases and nucleotide metabolism, decreased glycosyl transferases, carbohydrate-binding modules, and biogenic metabolism in the S-ECC phageome.
Metagenomic analysis revealed reduced Streptococcus phages and significant changes in functional annotations within the S-ECC phageome. These findings suggest a potential weakening of the regulatory influence of oral bacteria, which may indicate the development of innovative prevention and treatment strategies for S-ECC. These implications deserve further investigation and hold promise for advancing our understanding and management of S-ECC.
The findings of this study indicate that oral phageomes are associated with bacterial genomes and metabolic processes, affecting the development of S-ECC. The reduced modulatory effect of the oral phageome in counteracting S-ECC's cariogenic activity suggests a new avenue for the prevention and treatment of S-ECC.
严重婴幼儿龋(S-ECC)患病率高,影响儿童口腔健康。S-ECC 的发展与复杂的口腔微生物微生物组及其微生物相互作用密切相关,例如噬菌体和细菌的失衡。到目前为止,人们对 S-ECC 的口腔噬菌体组知之甚少。因此,本研究旨在探讨口腔噬菌体组在 S-ECC 发病机制中的潜在作用。
从 20 名患有和不患有 S-ECC 的儿童中采集 2 毫升未刺激的唾液进行宏基因组分析。进行宏基因组测序和生物信息学分析,以确定两组噬菌体组的多样性、分类和功能注释。使用 R 和 SPSS Statistics 软件进行统计分析和可视化。
85.7%的提取病毒序列来自噬菌体,其中大多数噬菌体被分类为肌尾病毒科、尾病毒科和短尾病毒科。与健康组相比,S-ECC 噬菌体组的 Alpha 多样性降低,Beta 多样性增加。S-ECC 组 Podoviridae 噬菌体的丰度增加,而 Inoviridae、Herelleviridae 和链球菌噬菌体的丰度减少。功能注释显示 S-ECC 噬菌体组中糖苷水解酶和核苷酸代谢的注释增加,糖基转移酶、碳水化合物结合模块和生物合成代谢减少。
宏基因组分析显示,S-ECC 噬菌体组中的链球菌噬菌体减少,功能注释发生显著变化。这些发现表明,口腔细菌的调节作用可能减弱,这可能表明需要开发针对 S-ECC 的创新预防和治疗策略。这些影响值得进一步研究,并有望提高我们对 S-ECC 的理解和管理。
本研究结果表明,口腔噬菌体组与细菌基因组和代谢过程相关,影响 S-ECC 的发展。口腔噬菌体组在抑制 S-ECC 的致龋活性方面的调节作用减弱表明,预防和治疗 S-ECC 的新途径。
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