Greathouse K Leigh, White James Robert, Padgett R Noah, Perrotta Brittany G, Jenkins Gregory D, Chia Nicholas, Chen Jun
Nutrition Sciences Division, Robbins College of Health and Human Science, Baylor University, Waco, Texas, USA.
Department of Biology, Baylor University, Waco, Texas, USA.
BMJ Open Gastroenterol. 2019 Feb 28;6(1):e000247. doi: 10.1136/bmjgast-2018-000247. eCollection 2019.
Obesity is a risk factor for colorectal cancer (CRC), accounting for more than 14% of CRC incidence. Microbial dysbiosis and chronic inflammation are common characteristics in both obesity and CRC. Human and murine studies, together, demonstrate the significant impact of the microbiome in governing energy metabolism and CRC development; yet, little is understood about the contribution of the microbiome to development of obesity-associated CRC as compared to individuals who are not obese.
In this study, we conducted a meta-analysis using five publicly available stool and tissue-based 16S rRNA and whole genome sequencing (WGS) data sets of CRC microbiome studies. High-resolution analysis was employed for 16S rRNA data, which allowed us to achieve species-level information to compare with WGS.
Characterisation of the confounders between studies, 16S rRNA variable region and sequencing method did not reveal any significant effect on alpha diversity in CRC prediction. Both 16S rRNA and WGS were equally variable in their ability to predict CRC. Results from diversity analysis confirmed lower diversity in obese individuals without CRC; however, no universal differences were found in diversity between obese and non-obese individuals with CRC. When examining taxonomic differences, the probability of being classified as CRC did not change significantly in obese individuals for all taxa tested. However, random forest classification was able to distinguish CRC and non-CRC stool when body mass index was added to the model.
Overall, microbial dysbiosis was not a significant factor in explaining the higher risk of colon cancer among individuals with obesity.
肥胖是结直肠癌(CRC)的一个风险因素,占CRC发病率的14%以上。微生物群落失调和慢性炎症是肥胖和CRC的共同特征。人类和小鼠研究共同证明了微生物群落在控制能量代谢和CRC发展中的重大影响;然而,与非肥胖个体相比,关于微生物群对肥胖相关CRC发展的贡献了解甚少。
在本研究中,我们使用了五个公开可用的基于粪便和组织的CRC微生物组研究的16S rRNA和全基因组测序(WGS)数据集进行荟萃分析。对16S rRNA数据采用了高分辨率分析,这使我们能够获得物种水平的信息以与WGS进行比较。
对研究之间的混杂因素、16S rRNA可变区和测序方法的特征分析未发现对CRC预测中的α多样性有任何显著影响。16S rRNA和WGS在预测CRC的能力方面同样具有变异性。多样性分析结果证实,无CRC的肥胖个体的多样性较低;然而,在患有CRC的肥胖和非肥胖个体之间未发现普遍的多样性差异。在检查分类学差异时,对于所有测试的分类群,肥胖个体被归类为CRC的概率没有显著变化。然而,当将体重指数添加到模型中时,随机森林分类能够区分CRC和非CRC粪便。
总体而言,微生物群落失调不是解释肥胖个体患结肠癌风险较高的重要因素。
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