Abstract

Newborns are constantly exposed to various microbes from birth; hence, diverse commensal bacteria colonize the oral cavity. However, how or when these bacteria construct a complex and stable ecosystem remains unclear. This prospective cohort study examined the temporal changes in bacterial diversity and composition in tongue microbiota during infancy. We longitudinally collected a total of 464 tongue swab samples from 8 infants (age of <6 months at baseline) for approximately 2 years. We also collected samples from 32 children (aged 0 to 2 years) and 73 adults (aged 20 to 29 years) cross-sectionally as control groups. Bacterial diversities and compositions were determined by 16S rRNA gene sequencing. The tongue bacterial diversity in infancy, measured as the number of observed operational taxonomic units (OTUs), rapidly increased and nearly reached the same level as that in adults by around 80 weeks. The overall tongue bacterial composition in the transitional phase, 80 to 120 weeks, was more similar to that of adults than to that of the early exponential phase (EEP), 10 to 29 weeks, according to analysis of similarities. Dominant OTUs in the EEP corresponding to Streptococcus peroris and Streptococcus lactarius exponentially decreased immediately after EEP, around 30 to 49 weeks, whereas several OTUs corresponding to Granulicatella adiacens, Actinomyces odontolyticus, and Fusobacterium periodonticum reciprocally increased during the same period. These results suggest that a drastic compositional shift of tongue microbiota occurs before the age of 1 year, and then bacterial diversity and overall bacterial composition reach levels comparable to those in adults by the age of 2 years.IMPORTANCE Evaluating the development of oral microbiota during infancy is important for understanding the subsequent colonization of bacterial species and the process of formation of mature microbiota in the oral cavity. We examined tongue microbiota longitudinally collected from 8 infants and found that drastic compositional shifts in tongue microbiota occur before the age of 1 year, and then bacterial diversity and overall bacterial composition reach levels comparable to those in adults by the age of 2 years. These results may be helpful for preventing the development of various diseases associated with oral microbiota throughout life.

Highlights

  • Newborns are constantly exposed to various microbes from birth; diverse commensal bacteria colonize the oral cavity

  • transitional phase (TP)-adult common operational taxonomic units (OTUs) rapidly increased during this phase, accounting for approximately 20% of tongue microbiota after that, even in the adult phase. These results suggest that a drastic change occurs in the bacterial composition before the age of 1 year. This prospective cohort study revealed the early development of bacterial diversity and composition of tongue microbiota

  • The drastic compositional shift in tongue microbiota occurred in an early stage of infancy, around 30 to 49 weeks, and the bacterial diversity and overall bacterial composition in the TP reached the same levels as those in adults and were less comparable to those in the exponential phase (EEP)

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Summary

Introduction

Newborns are constantly exposed to various microbes from birth; diverse commensal bacteria colonize the oral cavity. Dominant OTUs in the EEP corresponding to Streptococcus peroris and Streptococcus lactarius exponentially decreased immediately after EEP, around 30 to 49 weeks, whereas several OTUs corresponding to Granulicatella adiacens, Actinomyces odontolyticus, and Fusobacterium periodonticum reciprocally increased during the same period These results suggest that a drastic compositional shift of tongue microbiota occurs before the age of 1 year, and bacterial diversity and overall bacterial composition reach levels comparable to those in adults by the age of 2 years. We examined tongue microbiota longitudinally collected from 8 infants and found that drastic compositional shifts in tongue microbiota occur before the age of 1 year, and bacterial diversity and overall bacterial composition reach levels comparable to those in adults by the age of 2 years These results may be helpful for preventing the development of various diseases associated with oral microbiota throughout life. Oral dysbiosis (imbalance of overall bacterial composition including oral commensal bacteria and pathogenic bacteria) has attracted attention as an etiology of oral and systemic diseases [3, 4, 17,18,19]

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