Srinivasan Sujatha, Morgan Martin T, Fiedler Tina L, Djukovic Danijel, Hoffman Noah G, Raftery Daniel, Marrazzo Jeanne M, Fredricks David N
Vaccine and Infectious Disease Division, Fred Hutchinson Cancer Research Center, Seattle, Washington, USA
Public Health Science Division, Fred Hutchinson Cancer Research Center, Seattle, Washington, USA.
mBio. 2015 Apr 14;6(2):e00204-15. doi: 10.1128/mBio.00204-15.
Bacterial vaginosis (BV) is characterized by shifts in the vaginal microbiota from Lactobacillus dominant to a microbiota with diverse anaerobic bacteria. Few studies have linked specific metabolites with bacteria found in the human vagina. Here, we report dramatic differences in metabolite compositions and concentrations associated with BV using a global metabolomics approach. We further validated important metabolites using samples from a second cohort of women and a different platform to measure metabolites. In the primary study, we compared metabolite profiles in cervicovaginal lavage fluid from 40 women with BV and 20 women without BV. Vaginal bacterial representation was determined using broad-range PCR with pyrosequencing and concentrations of bacteria by quantitative PCR. We detected 279 named biochemicals; levels of 62% of metabolites were significantly different in women with BV. Unsupervised clustering of metabolites separated women with and without BV. Women with BV have metabolite profiles marked by lower concentrations of amino acids and dipeptides, concomitant with higher levels of amino acid catabolites and polyamines. Higher levels of the signaling eicosanoid 12-hydroxyeicosatetraenoic acid (12-HETE), a biomarker for inflammation, were noted in BV. Lactobacillus crispatus and Lactobacillus jensenii exhibited similar metabolite correlation patterns, which were distinct from correlation patterns exhibited by BV-associated bacteria. Several metabolites were significantly associated with clinical signs and symptoms (Amsel criteria) used to diagnose BV, and no metabolite was associated with all four clinical criteria. BV has strong metabolic signatures across multiple metabolic pathways, and these signatures are associated with the presence and concentrations of particular bacteria.
Bacterial vaginosis (BV) is a common but highly enigmatic condition that is associated with adverse outcomes for women and their neonates. Small molecule metabolites in the vagina may influence host physiology, affect microbial community composition, and impact risk of adverse health outcomes, but few studies have comprehensively studied the metabolomics profile of BV. Here, we used mass spectrometry to link specific metabolites with particular bacteria detected in the human vagina by PCR. BV was associated with strong metabolic signatures across multiple pathways affecting amino acid, carbohydrate, and lipid metabolism, highlighting the profound metabolic changes in BV. These signatures were associated with the presence and concentrations of particular vaginal bacteria, including some bacteria yet to be cultivated, thereby providing clues as to the microbial origin of many metabolites. Insights from this study provide opportunities for developing new diagnostic markers of BV and novel approaches for treatment or prevention of BV.
细菌性阴道病(BV)的特征是阴道微生物群从以乳酸杆菌为主转变为含有多种厌氧菌的微生物群。很少有研究将特定代谢物与人类阴道中发现的细菌联系起来。在此,我们使用全局代谢组学方法报告了与BV相关的代谢物组成和浓度的显著差异。我们使用来自另一组女性的样本和不同的代谢物测量平台进一步验证了重要代谢物。在初步研究中,我们比较了40名患有BV的女性和20名未患BV的女性宫颈阴道灌洗液中的代谢物谱。使用广谱PCR和焦磷酸测序确定阴道细菌代表性,并通过定量PCR确定细菌浓度。我们检测到279种命名的生化物质;62%的代谢物水平在患有BV的女性中显著不同。代谢物的无监督聚类将患有和未患有BV的女性分开。患有BV的女性的代谢物谱特征是氨基酸和二肽浓度较低,同时氨基酸分解代谢物和多胺水平较高。在BV中发现炎症生物标志物信号类二十烷酸12-羟基二十碳四烯酸(12-HETE)水平较高。卷曲乳酸杆菌和詹氏乳酸杆菌表现出相似的代谢物相关模式,这与BV相关细菌表现出的相关模式不同。几种代谢物与用于诊断BV的临床体征和症状(阿姆塞尔标准)显著相关,没有一种代谢物与所有四项临床标准相关。BV在多个代谢途径中具有强烈的代谢特征,这些特征与特定细菌的存在和浓度相关。
细菌性阴道病(BV)是一种常见但极具谜团的病症,与女性及其新生儿的不良结局相关。阴道中的小分子代谢物可能影响宿主生理、影响微生物群落组成并影响不良健康结局的风险,但很少有研究全面研究BV的代谢组学特征。在此,我们使用质谱法将特定代谢物与通过PCR在人类阴道中检测到的特定细菌联系起来。BV与影响氨基酸、碳水化合物和脂质代谢的多个途径中的强烈代谢特征相关,突出了BV中深刻的代谢变化。这些特征与特定阴道细菌的存在和浓度相关,包括一些尚未培养的细菌,从而为许多代谢物的微生物来源提供了线索。本研究的见解为开发BV的新诊断标志物以及治疗或预防BV的新方法提供了机会。
