Author
Listed:
- Chen Chen
(BGI-Shenzhen
China National Genebank, BGI-Shenzhen)
- Xiaolei Song
(BGI-Shenzhen
BGI Education Center, University of Chinese Academy of Sciences)
- Weixia Wei
(Peking University Shenzhen Hospital
Shenzhen Key Laboratory on Technology for Early Diagnosis of Major Gynecological diseases)
- Huanzi Zhong
(BGI-Shenzhen
China National Genebank, BGI-Shenzhen
Laboratory of Genomics and Molecular Biomedicine, University of Copenhagen, Universitetsparken 13)
- Juanjuan Dai
(Peking University Shenzhen Hospital
Shenzhen Key Laboratory on Technology for Early Diagnosis of Major Gynecological diseases)
- Zhou Lan
(BGI-Shenzhen)
- Fei Li
(BGI-Shenzhen
China National Genebank, BGI-Shenzhen
BGI Education Center, University of Chinese Academy of Sciences)
- Xinlei Yu
(BGI-Shenzhen
China National Genebank, BGI-Shenzhen)
- Qiang Feng
(BGI-Shenzhen
Shenzhen Engineering Laboratory of Detection and Intervention of human intestinal microbiome, BGI-Shenzhen)
- Zirong Wang
(BGI-Shenzhen)
- Hailiang Xie
(BGI-Shenzhen)
- Xiaomin Chen
(BGI-Shenzhen)
- Chunwei Zeng
(BGI-Shenzhen)
- Bo Wen
(BGI-Shenzhen
China National Genebank, BGI-Shenzhen)
- Liping Zeng
(Peking University Shenzhen Hospital
Shenzhen Key Laboratory on Technology for Early Diagnosis of Major Gynecological diseases)
- Hui Du
(Peking University Shenzhen Hospital
Shenzhen Key Laboratory on Technology for Early Diagnosis of Major Gynecological diseases)
- Huiru Tang
(Peking University Shenzhen Hospital
Shenzhen Key Laboratory on Technology for Early Diagnosis of Major Gynecological diseases)
- Changlu Xu
(BGI-Shenzhen
Qingdao University-BGI Joint Innovation College, Qingdao University)
- Yan Xia
(BGI-Shenzhen
BGI Education Center, University of Chinese Academy of Sciences)
- Huihua Xia
(BGI-Shenzhen
China National Genebank, BGI-Shenzhen
Shenzhen Key Laboratory of Human Commensal Microorganisms and Health Research, BGI-Shenzhen)
- Huanming Yang
(BGI-Shenzhen
James D. Watson Institute of Genome Sciences)
- Jian Wang
(BGI-Shenzhen
James D. Watson Institute of Genome Sciences)
- Jun Wang
(BGI-Shenzhen
Macau University of Science and Technology, Taipa)
- Lise Madsen
(BGI-Shenzhen
Laboratory of Genomics and Molecular Biomedicine, University of Copenhagen, Universitetsparken 13
National Institute of Nutrition and Seafood Research, (NIFES))
- Susanne Brix
(Technical University of Denmark)
- Karsten Kristiansen
(BGI-Shenzhen
Laboratory of Genomics and Molecular Biomedicine, University of Copenhagen, Universitetsparken 13)
- Xun Xu
(BGI-Shenzhen
China National Genebank, BGI-Shenzhen)
- Junhua Li
(BGI-Shenzhen
China National Genebank, BGI-Shenzhen
Shenzhen Key Laboratory of Human Commensal Microorganisms and Health Research, BGI-Shenzhen
School of Bioscience and Biotechnology, South China University of Technology)
- Ruifang Wu
(Peking University Shenzhen Hospital
Shenzhen Key Laboratory on Technology for Early Diagnosis of Major Gynecological diseases)
- Huijue Jia
(BGI-Shenzhen
China National Genebank, BGI-Shenzhen
Shenzhen Key Laboratory of Human Commensal Microorganisms and Health Research, BGI-Shenzhen
Macau University of Science and Technology, Taipa)
Abstract
Reports on bacteria detected in maternal fluids during pregnancy are typically associated with adverse consequences, and whether the female reproductive tract harbours distinct microbial communities beyond the vagina has been a matter of debate. Here we systematically sample the microbiota within the female reproductive tract in 110 women of reproductive age, and examine the nature of colonisation by 16S rRNA gene amplicon sequencing and cultivation. We find distinct microbial communities in cervical canal, uterus, fallopian tubes and peritoneal fluid, differing from that of the vagina. The results reflect a microbiota continuum along the female reproductive tract, indicative of a non-sterile environment. We also identify microbial taxa and potential functions that correlate with the menstrual cycle or are over-represented in subjects with adenomyosis or infertility due to endometriosis. The study provides insight into the nature of the vagino-uterine microbiome, and suggests that surveying the vaginal or cervical microbiota might be useful for detection of common diseases in the upper reproductive tract.
Suggested Citation
Chen Chen & Xiaolei Song & Weixia Wei & Huanzi Zhong & Juanjuan Dai & Zhou Lan & Fei Li & Xinlei Yu & Qiang Feng & Zirong Wang & Hailiang Xie & Xiaomin Chen & Chunwei Zeng & Bo Wen & Liping Zeng & Hui, 2017.
"The microbiota continuum along the female reproductive tract and its relation to uterine-related diseases,"
Nature Communications, Nature, vol. 8(1), pages 1-11, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00901-0
DOI: 10.1038/s41467-017-00901-0
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Citations
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Cited by:
- Na Chen & Lilan Hao & Zhe Zhang & Chenglu Qin & Zhuye Jie & Hongxin Pan & Jiali Duan & Xincheng Huang & Yunhong Zhang & Hongqin Gao & Ruike Lu & Tianshu Sun & Hua Yang & Jinqiu Shi & Maolian Liang & J, 2024.
"Insights into the assembly of the neovaginal microbiota in Mayer-Rokitansky-Küster-Hauser (MRKH) syndrome patients,"
Nature Communications, Nature, vol. 15(1), pages 1-15, December.
- Kostroma Ya. V., 2021.
"Cost management for various diagnostic schemes for cervicitis and chronic endometritis,"
Russian Journal of Social Sciences and Humanities, Omsk Humanitarian Academy, vol. 15(3), pages 207-215, September.
- Zohreh Izadifar & Justin Cotton & Siyu Chen & Viktor Horvath & Anna Stejskalova & Aakanksha Gulati & Nina T. LoGrande & Bogdan Budnik & Sanjid Shahriar & Erin R. Doherty & Yixuan Xie & Tania To & Sara, 2024.
"Mucus production, host-microbiome interactions, hormone sensitivity, and innate immune responses modeled in human cervix chips,"
Nature Communications, Nature, vol. 15(1), pages 1-19, December.
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