Cohen Louis J, Kang Hahk-Soo, Chu John, Huang Yun-Han, Gordon Emma A, Reddy Boojala Vijay B, Ternei Melinda A, Craig Jeffrey W, Brady Sean F
Laboratory of Genetically Encoded Small Molecules, Howard Hughes Medical Institute, The Rockefeller University, New York, NY 10065; Division of Gastroenterology, Department of Medicine, Icahn School of Medicine at Mount Sinai, New York, NY 10029.
Laboratory of Genetically Encoded Small Molecules, Howard Hughes Medical Institute, The Rockefeller University, New York, NY 10065;
Proc Natl Acad Sci U S A. 2015 Sep 1;112(35):E4825-34. doi: 10.1073/pnas.1508737112. Epub 2015 Aug 17.
The trillions of bacteria that make up the human microbiome are believed to encode functions that are important to human health; however, little is known about the specific effectors that commensal bacteria use to interact with the human host. Functional metagenomics provides a systematic means of surveying commensal DNA for genes that encode effector functions. Here, we examine 3,000 Mb of metagenomic DNA cloned from three phenotypically distinct patients for effectors that activate NF-κB, a transcription factor known to play a central role in mediating responses to environmental stimuli. This screen led to the identification of 26 unique commensal bacteria effector genes (Cbegs) that are predicted to encode proteins with diverse catabolic, anabolic, and ligand-binding functions and most frequently interact with either glycans or lipids. Detailed analysis of one effector gene family (Cbeg12) recovered from all three patient libraries found that it encodes for the production of N-acyl-3-hydroxypalmitoyl-glycine (commendamide). This metabolite was also found in culture broth from the commensal bacterium Bacteroides vulgatus, which harbors a gene highly similar to Cbeg12. Commendamide resembles long-chain N-acyl-amides that function as mammalian signaling molecules through activation of G-protein-coupled receptors (GPCRs), which led us to the observation that commendamide activates the GPCR G2A/GPR132. G2A has been implicated in disease models of autoimmunity and atherosclerosis. This study shows the utility of functional metagenomics for identifying potential mechanisms used by commensal bacteria for host interactions and outlines a functional metagenomics-based pipeline for the systematic identification of diverse commensal bacteria effectors that impact host cellular functions.
构成人类微生物组的数万亿细菌被认为编码着对人类健康至关重要的功能;然而,关于共生细菌用于与人类宿主相互作用的特定效应分子却知之甚少。功能宏基因组学提供了一种系统的方法,用于在共生DNA中筛选编码效应功能的基因。在这里,我们检查了从三名表型不同的患者中克隆的3000兆碱基的宏基因组DNA,以寻找激活NF-κB的效应分子,NF-κB是一种已知在介导对环境刺激的反应中起核心作用的转录因子。该筛选导致鉴定出26个独特的共生细菌效应基因(Cbegs),这些基因预计编码具有多种分解代谢、合成代谢和配体结合功能的蛋白质,并且最常与聚糖或脂质相互作用。对从所有三个患者文库中回收的一个效应基因家族(Cbeg12)的详细分析发现,它编码N-酰基-3-羟基棕榈酰甘氨酸(共生酰胺)的产生。这种代谢物也在共生细菌普通拟杆菌的培养液中被发现,该细菌含有一个与Cbeg12高度相似的基因。共生酰胺类似于长链N-酰基酰胺,通过激活G蛋白偶联受体(GPCRs)作为哺乳动物信号分子发挥作用,这使我们观察到共生酰胺激活GPCR G2A/GPR132。G2A已涉及自身免疫和动脉粥样硬化的疾病模型。这项研究展示了功能宏基因组学在识别共生细菌用于宿主相互作用的潜在机制方面的效用,并概述了一种基于功能宏基因组学的流程,用于系统鉴定影响宿主细胞功能的多种共生细菌效应分子。