评估便秘患者的结肠微生物组、产氢和氢营养基因、转运和呼气甲烷。
Assessing the colonic microbiome, hydrogenogenic and hydrogenotrophic genes, transit and breath methane in constipation.
机构信息
Division of Nutritional Sciences, University of Illinois at Urbana-Champaign, Urbana, IL, USA.
Division of Gastroenterology and Hepatology, Department of Medicine, Mayo Clinic, Rochester, MN, USA.
出版信息
Neurogastroenterol Motil. 2017 Oct;29(10):1-9. doi: 10.1111/nmo.13056. Epub 2017 Mar 13.
BACKGROUND
Differences in the gut microbiota and breath methane production have been observed in chronic constipation, but the relationship between colonic microbiota, transit, and breath tests remains unclear.
METHODS
In 25 healthy and 25 constipated females we evaluated the sigmoid colonic mucosal and fecal microbiota using 16S rRNA gene sequencing, abundance of hydrogenogenic FeFe (FeFe-hydA) and hydrogenotrophic (methyl coenzyme M reductase A [mrcA] and dissimilatory sulfite reductase A [dsrA]) genes with real-time qPCR assays, breath hydrogen and methane levels after oral lactulose, and colonic transit with scintigraphy.
KEY RESULTS
Breath hydrogen and methane were not correlated with constipation, slow colon transit, or with abundance of corresponding genes. After adjusting for colonic transit, the abundance of FeFehydA, dsrA, and mcrA were greater (P<.005) in colonic mucosa, but not stool, of constipated patients. The abundance of the selected functional gene targets also correlated with that of selected taxa. The colonic mucosal abundance of FeFe-hydA, but not mcrA, correlated positively (P<.05) with breath methane production, slow colonic transit, and overall microbiome composition. In the colonic mucosa and feces, the abundance of hydrogenogenic and hydrogenotrophic genes were positively correlated (P<.05). Breath methane production was not associated with constipation or colonic transit.
CONCLUSIONS & INFERENCES: Corroborating our earlier findings with 16S rRNA genes, colonic mucosal but not fecal hydrogenogenic and hydrogenotrophic genes were more abundant in constipated vs. healthy subjects independent of colonic transit. Breath gases do not directly reflect the abundance of target genes contributing to their production.
背景
在慢性便秘中观察到肠道微生物群和呼气甲烷产生存在差异,但结肠微生物群、转运和呼吸测试之间的关系仍不清楚。
方法
我们评估了 25 名健康女性和 25 名便秘女性的乙状结肠黏膜和粪便微生物群,使用 16S rRNA 基因测序、实时 qPCR 检测氢生成 FeFe(FeFe-hydA)和氢营养(甲基辅酶 M 还原酶 A [mrcA] 和异化亚硫酸盐还原酶 A [dsrA])基因的丰度、口服乳果糖后的呼气氢和甲烷水平以及闪烁扫描法评估结肠转运。
主要结果
呼气氢和甲烷与便秘、结肠转运缓慢或相应基因的丰度均无相关性。在调整结肠转运后,便秘患者的结肠黏膜而非粪便中 FeFehydA、dsrA 和 mcrA 的丰度更高(P<.005)。所选功能基因靶标的丰度也与所选分类群的丰度相关。结肠黏膜中 FeFe-hydA 的丰度与呼气甲烷产生、结肠转运缓慢和整体微生物组组成呈正相关(P<.05),但 mcrA 则不然。结肠黏膜和粪便中氢生成和氢营养基因的丰度呈正相关(P<.05)。呼气甲烷的产生与便秘或结肠转运无关。
结论
与我们之前使用 16S rRNA 基因的研究结果一致,结肠黏膜而非粪便中的产氢和产氢基因在便秘患者中比在健康受试者中更为丰富,而与结肠转运无关。呼吸气体不能直接反映产生它们的目标基因的丰度。
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