Bedoya-Correa Claudia María, Rincón Rodríguez Ramiro Javier, Parada-Sanchez Monica Tatiana
School of Dentistry, Universidad de Antioquia, Medellín, Colombia.
School of Dentistry, Universidad de Antioquia, Medellín, Colombia.
J Oral Biosci. 2019 Mar;61(1):22-31. doi: 10.1016/j.job.2018.11.001. Epub 2018 Nov 15.
Streptococcus mutans (S. mutans) is a commensal microorganism found in the human oral cavity. However, due to environmental changes, selective pressures, and the presence of a variable genome, it adapts and may acquire new physiological and metabolic properties that alter dental biofilm homeostasis, promoting the development of dental caries. Although the plasticity and heterogeneity of S. mutans is widely recognized, very little is known about the mechanisms for the expression of pathogenic properties in specific genotypes.
The implementation of molecular biology techniques in the study of S. mutans has provided information on the genomic diversity of this species. This variability is generated by genome rearrangements, natural genetic transformation, and horizontal gene transfer, and continues to grow due to an open pan-genome. The main virulence factors associated with the cariogenic potential of S. mutans include adhesion, acid production (acidogenicity), and acid tolerance (aciduricity), and also show variability. These factors coordinate the modification of the physicochemical properties of the biofilm, which results in the accumulation of S. mutans and other acidogenic and aciduric species in the oral cavity.
We review the current literature on the main processes that generate S. mutans genomic diversity, as well as the phenotypic variability of its main virulence factors. S. mutans achieves its pathogenesis by sensing the intra- and extracellular environments and regulating gene transcription according to perceived environmental modifications. Consequently, this regulation gives rise to differential synthesis of proteins, allowing this species to potentially express virulence factors.
变形链球菌是一种存在于人类口腔中的共生微生物。然而,由于环境变化、选择压力以及可变基因组的存在,它会发生适应性变化,并可能获得新的生理和代谢特性,从而改变牙菌斑的稳态,促进龋齿的发展。尽管变形链球菌的可塑性和异质性已得到广泛认可,但对于特定基因型中致病特性表达的机制却知之甚少。
在变形链球菌研究中应用分子生物学技术,为该物种的基因组多样性提供了信息。这种变异性是由基因组重排、自然遗传转化和水平基因转移产生的,并且由于开放的泛基因组而持续增加。与变形链球菌致龋潜力相关的主要毒力因子包括黏附、产酸(产酸性)和耐酸(耐酸性),它们也表现出变异性。这些因子协同调节生物膜的物理化学性质,导致变形链球菌以及其他产酸和耐酸菌种在口腔中积累。
我们综述了关于产生变形链球菌基因组多样性的主要过程及其主要毒力因子表型变异性的当前文献。变形链球菌通过感知细胞内和细胞外环境,并根据感知到的环境变化调节基因转录来实现其致病机制。因此,这种调节导致蛋白质的差异合成,使该物种有可能表达毒力因子。
