RT Journal Article
SR Electronic
T1 Effects of long-term closed environment on human saliva microbiota and salivary cytokines
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 2020.10.12.336750
DO 10.1101/2020.10.12.336750
A1 Yinzhen Zhu
A1 Zikai Hao
A1 Yuming Fu
A1 Jianlou Yang
A1 Chen Dong
A1 Hong Liu
YR 2020
UL http://biorxiv.org/content/early/2020/10/13/2020.10.12.336750.abstract
AB Compared with the normal environment, the microbiota in controlled closed cabins such as space capsules, Lunar/Mars bases have changed. To ensure the health of crewmembers, it’s necessary to understand the effects of these changes on human symbiotic microorganisms and immunity. In this study, the experimental platform “Lunar Palace 1” with a similar closed and controlled environment was used to research the effects of changed microbial exposure on human saliva microbiota and salivary cytokines. This paper studied on four crewmembers who participated in the third phase of the “Lunar Palace 365” experiment, analyzing the dynamic changes of saliva microbiota and salivary cytokines, and further studying the correlation between salivary cytokines and highly abundant genera. According to our data, the crewmembers’ saliva microbiota and salivary cytokines fluctuated smoothly throughout the whole experiment. Although a part of microbes increased or decreased some times, they recovered quickly after leaving the controlled environment. The level of IL-6, IL-10 and TNF-α in crewmembers’ saliva decreased from normal environment to the controlled environment, showing reduced levels of oral inflammatory response in crewmembers. In addition, although there were significant individual differences in crewmembers’ saliva microbiota, sharing living space reduced the difference. Furthermore, the level of TNF-α showed a consistent positive correlation with the abundance of Actinomyces and Rothia in the controlled environment, indicating healthy individuals’ oral mucosal barrier may be sensitive to changes in saliva microbiota. According to the result, semi-sterile environments in controlled closed cabins didn’t cause persistent changes in human saliva microbiota and oral immunity. Besides, it provides a new idea for future research on the impact of the controlled environment on crewmembers health, and provides guidance for studying the effect of semi-sterile environments on human immunity based on saliva microbiota.Key pointsSaliva microbes kept stable for individual but got convergent when sharing space;The level of salivary cytokines reduced after entering the controlled environment;There were complex correlations between salivary cytokines and saliva microbes;The crewmembers adapt well to the controlled environment.Competing Interest StatementThe authors have declared no competing interest.