早期肾功能下降中的肠道微生物群-代谢物轴

Gut-Microbiota-Metabolite Axis in Early Renal Function Decline.

作者信息

Barrios Clara, Beaumont Michelle, Pallister Tess, Villar Judith, Goodrich Julia K, Clark Andrew, Pascual Julio, Ley Ruth E, Spector Tim D, Bell Jordana T, Menni Cristina

机构信息

Department of Twin Research and Genetic Epidemiology, King's College London, London, United Kingdom; Department of Nephrology, Hospital del Mar, Institut Mar d'Investigacions Mediques, Barcelona, Spain.

Department of Twin Research and Genetic Epidemiology, King's College London, London, United Kingdom.

出版信息

PLoS One. 2015 Aug 4;10(8):e0134311. doi: 10.1371/journal.pone.0134311. eCollection 2015.

DOI:10.1371/journal.pone.0134311

PMID:26241311

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4524635/

Abstract

INTRODUCTION

Several circulating metabolites derived from bacterial protein fermentation have been found to be inversely associated with renal function but the timing and disease severity is unclear. The aim of this study is to explore the relationship between indoxyl-sulfate, p-cresyl-sulfate, phenylacetylglutamine and gut-microbial profiles in early renal function decline.

RESULTS

Indoxyl-sulfate (Beta(SE) = -2.74(0.24); P = 8.8x10-29), p-cresyl-sulfate (-1.99(0.24), P = 4.6x10-16), and phenylacetylglutamine(-2.73 (0.25), P = 1.2x10-25) were inversely associated with eGFR in a large population base cohort (TwinsUK, n = 4439) with minimal renal function decline. In a sub-sample of 855 individuals, we analysed metabolite associations with 16S gut microbiome profiles (909 profiles, QIIME 1.7.0). Three Operational Taxonomic Units (OTUs) were significantly associated with indoxyl-sulfate and 52 with phenylacetylglutamine after multiple testing; while one OTU was nominally associated with p-cresyl sulfate. All 56 microbial members belong to the order Clostridiales and are represented by anaerobic Gram-positive families Christensenellaceae, Ruminococcaceae and Lachnospiraceae. Within these, three microbes were also associated with eGFR.

CONCLUSIONS

Our data suggest that indoxyl-sulfate, p-cresyl-sulfate and phenylacetylglutamine are early markers of renal function decline. Changes in the intestinal flora associated with these metabolites are detectable in early kidney disease. Future efforts should dissect this relationship to improve early diagnostics and therapeutics strategies.

摘要

引言

已发现几种源自细菌蛋白质发酵的循环代谢物与肾功能呈负相关，但时间及疾病严重程度尚不清楚。本研究旨在探讨硫酸吲哚酚、对甲酚硫酸盐、苯乙酰谷氨酰胺与早期肾功能下降时肠道微生物谱之间的关系。

结果

在肾功能下降极小的大人群队列（双胞胎英国队列，n = 4439）中，硫酸吲哚酚（β（标准误）=-2.74（0.24）；P = 8.8×10-29）、对甲酚硫酸盐（-1.99（0.24），P = 4.6×10-16）和苯乙酰谷氨酰胺（-2.73（0.25），P = 1.2×10-25）与估算肾小球滤过率呈负相关。在855名个体的子样本中，我们分析了代谢物与16S肠道微生物组谱（909个谱，QIIME 1.7.0）的关联。经过多重检验后，三个操作分类单元（OTU）与硫酸吲哚酚显著相关，52个与苯乙酰谷氨酰胺显著相关；而一个OTU与对甲酚硫酸盐呈名义上的关联。所有56种微生物成员均属于梭菌目，由厌氧革兰氏阳性科克里斯滕森菌科、瘤胃球菌科和毛螺菌科代表。其中，三种微生物也与估算肾小球滤过率相关。

结论

我们的数据表明，硫酸吲哚酚、对甲酚硫酸盐和苯乙酰谷氨酰胺是肾功能下降的早期标志物。与这些代谢物相关的肠道菌群变化在早期肾病中即可检测到。未来应深入研究这种关系，以改进早期诊断和治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1834/4524635/b94b20a3e2ce/pone.0134311.g001.jpg

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早期肾功能下降中的肠道微生物群-代谢物轴

Gut-Microbiota-Metabolite Axis in Early Renal Function Decline.

作者信息

机构信息

出版信息

INTRODUCTION

RESULTS

CONCLUSIONS

引言

结果

结论

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