Perturbations in gastrointestinal tract microbiota composition and function in individuals with yellow-greasy tongue coating

Liu Zhanyan; LI Zhiyue; Zhu Guanbao; Liu Yaqian; Peng Qinghua; WU Zhengzhi

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Perturbations in gastrointestinal tract microbiota composition and function in individuals with yellow-greasy tongue coating

Author: LIU Zhanyan ^{1
,

2} ; LI Zhiyue ³ ; ZHU Guanbao ³ ; LIU Yaqian ^{3
,

4} ; PENG Qinghua ¹ ; WU Zhengzhi ^{3
,

5}
Author Information

1. School of Traditional Chinese Medicine, Hunan University of Chinese Medicine, Changsha, Hunan 410208, China
2. Shenzhen Institute of Geriatrics, The First Affiliated Hospital of Shenzhen University, Shenzhen, Guangdong 518035, China
3. Shenzhen Institute of Geriatrics, The First Affiliated Hospital of Shenzhen University, Shenzhen, Guangdong 518035, China
4. Graduate School, Guangxi University of Chinese Medicine, Nanning, Guangxi 530200, China
5. WU Zhengzhi Academician Workstation, Ningbo College of Health Sciences, Ningbo, Zhejiang 315800, China
Publication Type:Journal Article
Keywords: Gut microbiota, Yellow-greasy tongue coating, Microcosmic syndrome differentiation, 16S rRNA, Metagenome, Metabonomics
From: Digital Chinese Medicine 2023;6(2):160-169
CountryChina
Language:English
Abstract: 【Objective】 To study the composition and function of tongue coating (TC) and gastrointestinal tract (GIT) microbiota in participants with yellow-greasy tongue coating (YGTC), and to explore the representative metabolite markers and pathways in this group. 【Methods】 Subjects with YGTC or thin-white tongue coating (TWTC) were recruited from December 1, 2021 to October 30, 2022, and the TC and fecal samples were collected. Samples were subjected to both whole-genome shotgun (WGS), and 16S rRNA gene sequencing. The α-diversity analysis, principal component analysis (PCA), and Spearman correlation analysis were performed for two groups. Ultra-performance liquid chromatography combined with tandem mass spectrometry (UPLC–MS/MS) analysis was used to analyze metabolomics and enrichment of metabolic pathways. 【Results】 The results revealed 20 YGTC participates and 19 TWTC participates. At the genus level, the dominant bacterial species of TC flora and intestinal flora in the two groups were roughly the same, but the relative kurtosis difference was marked, and the abundance of potentially pathogenic bacteria in TC and fecal samples of YGTC subjects was higher. There were 9 down-regulated microorganisms in the TC samples, 26 down-regulated microorganisms, and 6 up-regulated microorganisms in YGTC subjects. The α-diversity analysis indicated that the Chao and abundance-based coverage estimator (ACE) indices of TC bacteria in the YGTC subjects showed a decreasing trend, but the difference was not statistically significant (P > 0.05). The α-diversity of fecal samples and the Chao and ACE indices decreased significantly (P < 0.05). PCA showed that the microflora structure of TC and fecal samples were significantly different between the two groups. Spearman correlation analysis showed that there was no correlation between TC and fecal microorganisms at phyla and genus levels in the same subjects (P > 0.05). The metabolomics results demonstrated that fumarate reductase, V/A ATPase, and phosphatidylethanolamine were increased, and glycerate-3p, UDP-glucose, and quinone oxidoreductase metabolites were decreased in YGTC TC samples. Inosine monophosphate (IMP), uridine monophosphate (UMP), and gamma-aminobutyric acid(GABA) were increased in YGTC fecal samples, while the contents of ribo-5P, histidine, biotin,and cobalamin were decreased. Metabolic pathway analysis indicated that the abundance of the TC and fecal samples of the YGTC subjects was relatively low in various metabolic pathways, including amino acid metabolism, carbohydrate metabolism, nitrogen metabolism, and energy metabolism. 【Conclusion】 Structural and functional changes in TC and GIT microbiota or metabolite markers could be potential biological bases of YGTC formation.
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