Summary of Study ST002130

This data is available at the NIH Common Fund's National Metabolomics Data Repository (NMDR) website, the Metabolomics Workbench, https://www.metabolomicsworkbench.org, where it has been assigned Project ID PR001349. The data can be accessed directly via it's Project DOI: 10.21228/M8BM53 This work is supported by NIH grant, U2C- DK119886.

See: https://www.metabolomicsworkbench.org/about/howtocite.php

This study contains a large results data set and is not available in the mwTab file. It is only available for download via FTP as data file(s) here.

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Study IDST002130
Study TitleDiscovery and characterization of virulence associated functional metabolites in Escherichia coli based on functional metabolomics strategy(pellets metabolomics-1)
Study SummaryBacterial metabolites are substrates of virulence factors of uropathogenic Escherichia coli (UPEC), but the mechanism underlying the role of functional metabolites in bacterial virulence from the perspective of small molecular metabolism is unclear. In the present study, we used a strategy of functional metabolomics integrated with bacterial genetics in attempt to decipher the mechanism of virulence formation in Escherichia coli (E. coli) from the viewpoint of small molecule metabolism. We identified the virulence-associated metabolome via analysis of the primary metabolome of the pathogenic UTI89 strain and the non-pathogenic MG1655 strain. Then, the iron-mediated virulence associated metabolome was identified by an iron fishing strategy. Also, the mechanism of siderophores in regulating pathogenicity in different environments was explored by investigating the effect of iron on siderophore biosynthesis. Finally, by knocking out genes related to siderophore biosynthesis, siderophore transport and iron utilization, siderophores dependent iron-regulating virulence associated metabolome, including 18 functional metabolites, was identified and verified to be involved in the regulation of bacterial virulence. Based on this we found that these functional metabolites regulated the virulence of E. coli by targeting multiple metabolic pathways in an iron-siderophores dependent manner. Moreover, a quantitative proteomics approach was implemented to further elucidate the mechanism of functional metabolites and functional proteins in modulating bacterial virulence. And our findings demonstrated that functional proteins regulated the virulence of E. coli by mediating iron binding, iron-siderophore transmembrane transport, and the biosynthesis and expression of functional metabolites. Interestingly, we found that functional metabolites enhance the virulence of E. coli by specifically modulating the key metabolic pathways involved in purine metabolism, proline metabolism, arginine metabolism and pyrimidine metabolism. Taken together, our study identified for the first time 18 functional metabolites regulating the of E. coli virulence, greatly enriching our understanding of the mechanism of functional metabolites that regulate the E. coli virulence by targeting primary metabolism, which will largely contribute to the development of new strategies to target virulence-based diagnosis and therapy of infections caused by different pathogens.
Institute
Shanghai Center for Systems Biomedicine, Shanghai Jiaotong University
Last NameLu
First NameHaitao
Address800 Dongchuan RD. Minhang District, Shanghai, Shanghai, 200240, China
Emailhaitao.lu@sjtu.edu.cn
Phone15221478139
Submit Date2022-03-25
Raw Data AvailableYes
Raw Data File Type(s)d
Analysis Type DetailLC-MS
Release Date2022-04-20
Release Version1
Haitao Lu Haitao Lu
https://dx.doi.org/10.21228/M8BM53
ftp://www.metabolomicsworkbench.org/Studies/ application/zip

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Factors:

Subject type: Bacteria; Subject species: Escherichia coli (Factor headings shown in green)

mb_sample_id local_sample_id Treatment
SA204464WT-10-2P10 μM iron supplementation
SA204465WT-10-4P10 μM iron supplementation
SA204466WT-10-6P10 μM iron supplementation
SA204467WT-10-1P10 μM iron supplementation
SA204468WT-10-5P10 μM iron supplementation
SA204469WT-10-3P10 μM iron supplementation
SA204470entB-0-5Pstandard growth conditions
SA204471entB-0-6Pstandard growth conditions
SA204472iroA-0-1Pstandard growth conditions
SA204473iroA-0-2Pstandard growth conditions
SA204474entB-0-4Pstandard growth conditions
SA204475BS-0-6Pstandard growth conditions
SA204476iroA-0-3Pstandard growth conditions
SA204477entB-0-2Pstandard growth conditions
SA204478entB-0-1Pstandard growth conditions
SA204479entB-0-3Pstandard growth conditions
SA204480irp1-0-1Pstandard growth conditions
SA204481irp1-0-4Pstandard growth conditions
SA204482irp1-0-5Pstandard growth conditions
SA204483irp1-0-6Pstandard growth conditions
SA204484irp1-0-3Pstandard growth conditions
SA204485irp1-0-2Pstandard growth conditions
SA204486iroA-0-5Pstandard growth conditions
SA204487iroA-0-6Pstandard growth conditions
SA204488BS-0-5Pstandard growth conditions
SA204489iroA-0-4Pstandard growth conditions
SA204490BS-0-1Pstandard growth conditions
SA204491MG1655-0-1Pstandard growth conditions
SA204492MG1655-0-2Pstandard growth conditions
SA204493MG1655-0-3Pstandard growth conditions
SA204494MG1655-0-4Pstandard growth conditions
SA204495WT-0-6Pstandard growth conditions
SA204496WT-0-5Pstandard growth conditions
SA204497WT-0-2Pstandard growth conditions
SA204498WT-0-3Pstandard growth conditions
SA204499WT-0-4Pstandard growth conditions
SA204500MG1655-0-5Pstandard growth conditions
SA204501MG1655-0-6Pstandard growth conditions
SA204502ybtS-0-6Pstandard growth conditions
SA204503WT-0-1Pstandard growth conditions
SA204504BS-0-2Pstandard growth conditions
SA204505BS-0-3Pstandard growth conditions
SA204506ybtS-0-5Pstandard growth conditions
SA204507ybtS-0-4Pstandard growth conditions
SA204508ybtS-0-1Pstandard growth conditions
SA204509ybtS-0-2Pstandard growth conditions
SA204510ybtS-0-3Pstandard growth conditions
SA204511BS-0-4Pstandard growth conditions
Showing results 1 to 48 of 48
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