体重指数（BMI）处于极端水平的个体以及BMI不一致的同卵双胞胎的宏分类学分析。

Metataxonomic Analysis of Individuals at BMI Extremes and Monozygotic Twins Discordant for BMI.

作者信息

Finnicum Casey T, Doornweerd Stieneke, Dolan Conor V, Luningham Justin M, Beck Jeffrey J, Willemsen Gonneke, Ehli Erik A, Boomsma Dorret I, Ijzerman Richard G, Davies Gareth E, de Geus Eco J C

机构信息

Avera Institute for Human Genetics,Avera McKennan Hospital & University Health Center,Sioux Falls,SD,USA.

Department of Internal Medicine,Vrije Universiteit Medical Center,Amsterdam,the Netherlands.

出版信息

Twin Res Hum Genet. 2018 Jun;21(3):203-213. doi: 10.1017/thg.2018.26.

DOI:10.1017/thg.2018.26

PMID:29792248

Abstract

OBJECTIVE

The human gut microbiota has been demonstrated to be associated with a number of host phenotypes, including obesity and a number of obesity-associated phenotypes. This study is aimed at further understanding and describing the relationship between the gut microbiota and obesity-associated measurements obtained from human participants.

SUBJECTS/METHODS: Here, we utilize genetically informative study designs, including a four-corners design (extremes of genetic risk for BMI and of observed BMI; N = 50) and the BMI monozygotic (MZ) discordant twin pair design (N = 30), in order to help delineate the role of host genetics and the gut microbiota in the development of obesity.

RESULTS

Our results highlight a negative association between BMI and alpha diversity of the gut microbiota. The low genetic risk/high BMI group of individuals had a lower gut microbiota alpha diversity when compared to the other three groups. Although the difference in alpha diversity between the lean and heavy groups of the BMI-discordant MZ twin design did not achieve significance, this difference was observed to be in the expected direction, with the heavier participants having a lower average alpha diversity. We have also identified nine OTUs observed to be associated with either a leaner or heavier phenotype, with enrichment for OTUs classified to the Ruminococcaceae and Oxalobacteraceae taxonomic families.

CONCLUSION

Our study presents evidence of a relationship between BMI and alpha diversity of the gut microbiota. In addition to these findings, a number of OTUs were found to be significantly associated with host BMI. These findings may highlight separate subtypes of obesity, one driven by genetic factors, the other more heavily influenced by environmental factors.

摘要

目的

已证明人类肠道微生物群与许多宿主表型相关，包括肥胖症以及一些与肥胖相关的表型。本研究旨在进一步了解和描述肠道微生物群与从人类参与者获得的肥胖相关测量值之间的关系。

受试者/方法：在此，我们采用具有遗传信息的研究设计，包括四角设计（BMI的遗传风险极端值和观察到的BMI；N = 50）和BMI单卵（MZ）不一致双胞胎对设计（N = 30），以帮助阐明宿主遗传学和肠道微生物群在肥胖症发展中的作用。

结果

我们的结果突出了BMI与肠道微生物群的α多样性之间的负相关。与其他三组相比，低遗传风险/高BMI个体组的肠道微生物群α多样性较低。虽然BMI不一致的MZ双胞胎设计中瘦组和胖组之间的α多样性差异未达到显著水平，但观察到这种差异是在预期方向上，体重较重的参与者平均α多样性较低。我们还鉴定出9个OTU与较瘦或较胖的表型相关，其中分类到瘤胃球菌科和草酸杆菌科分类家族的OTU富集。

结论

我们的研究提供了BMI与肠道微生物群α多样性之间存在关系的证据。除了这些发现外，还发现许多OTU与宿主BMI显著相关。这些发现可能突出了肥胖的不同亚型，一种由遗传因素驱动，另一种受环境因素影响更大。

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体重指数（BMI）处于极端水平的个体以及BMI不一致的同卵双胞胎的宏分类学分析。

Metataxonomic Analysis of Individuals at BMI Extremes and Monozygotic Twins Discordant for BMI.

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