Summary of Study ST001748

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 PR001120. The data can be accessed directly via it's Project DOI: 10.21228/M8XM6R 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.

Study ID	ST001748
Study Title	Rationally designed bacterial consortia to treat chronic immune-mediated colitis and restore intestinal homeostasis
Study Type	Targeted metabolomics
Study Summary	GUT103 and GUT108, live biotherapeutic products rationally designed to complement missing or underrepresented functions in the dysbiotic microbiome of IBD patients; they address upstream targets, rather than targeting a single cytokine to block downstream inflammation responses. Systematic colonization experiments in colitis mouse models were performed to test their therapeutic effects. Targeted fecal metabolomics data uploaded here of bile acids, short-chain fatty acids, and tryptophan metabolites provides a unique metabolome perspective for evaluation of the therapeutic potential of GUT103 and GUT108.
Institute	University of North Carolina at Chapel Hill
Laboratory	Gusto Global LLC.
Last Name	Lai
First Name	Yunjia
Address	1104 MHRC, 135 Dauer Drive, Chapel Hill, NC 27599, USA
Email	lai7@live.unc.edu
Phone	+1 919-480-5489
Submit Date	2021-04-22
Num Groups	12
Publications	Nature Communications
Raw Data Available	Yes
Raw Data File Type(s)	mzXML
Analysis Type Detail	GC-MS/LC-MS
Release Date	2021-04-30
Release Version	1

Select appropriate tab below to view additional metadata details:

Project:

Project ID:	PR001120
Project DOI:	doi: 10.21228/M8XM6R
Project Title:	Rationally designed bacterial consortia to treat chronic immune-mediated colitis and restore intestinal homeostasis
Project Type:	targeted metabolomics
Project Summary:	Environmental factors, mucosal permeability and defective immunoregulation drive overactive immunity to a subset of resident intestinal bacteria that mediate multiple inflammatory conditions. GUT-103 and GUT-108, live biotherapeutic products rationally designed to complement missing or underrepresented functions in the dysbiotic microbiome of IBD patients, address upstream targets, rather than targeting a single cytokine to block downstream inflammation responses. GUT-103, composed of 17 strains that synergistically provide protective and sustained engraftment in the IBD inflammatory environment, prevented, and treated chronic immune-mediated colitis. Therapeutic application of GUT-108 reversed established colitis in a humanized chronic T cell-mediated mouse model. It decreased pathobionts while expanding resident protective bacteria; produced metabolites promoting mucosal healing and immunoregulatory responses; decreased inflammatory cytokines and Th-1 and Th-17 cells; and induced interleukin-10-producing colonic regulatory cells, and IL-10-independent homeostatic pathways. We propose GUT-108 for treating and preventing relapse for IBD and other inflammatory conditions characterized by unbalanced microbiota and mucosal permeability.
Institute:	University of North Carolina at Chapel Hill
Department:	UNC Departments of Medicine, Microbiology and Immunology, Center for Gastrointestinal Biology and Disease; UNC Department of Environmental Sciences and Engineering
Laboratory:	R. Balfour Sartor Lab; Kun Lu Lab
Last Name:	Lai
First Name:	Yunjia
Address:	1104 MHRC, 135 Dauer Drive, NC
Email:	lai7@live.unc.edu
Phone:	919-480-5489
Funding Source:	Gusto Global LLC.; National Institute of Health (NIH) (grant no. P40OD010995; P30DK034987; P01DK094779); the Crohn’s and Colitis Foundation
Publications:	Nature Communications

Subject:

Subject ID:	SU001825
Subject Type:	Mammal
Subject Species:	Mus musculus
Taxonomy ID:	10090
Genotype Strain:	GF 129SvEv background IL-10-deficient mice (Il10-/-); Il10-eGFP-reporter (Il10+/eGFP) mice (on a C57BL/6J background)
Age Or Age Range:	8-12 week old
Animal Animal Supplier:	8-12 week-age GF 129SvEv background IL-10-deficient mice (Il10-/-) were obtained from University of North Carolina National Gnotobiotic Rodent Resource Center; Il10-eGFP-reporter (Il10+/eGFP) mice on a C57BL/6J background mice were originally provided by Dr. C. L. Karp (Global Health, Bill & Melinda Gates Foundation, USA)
Animal Housing:	Germ-free and gnotobiotic conditions at National Gnotobiotic Rodent Resource Center, University of North Carolina

Factors:

Subject type: Mammal; Subject species: Mus musculus (Factor headings shown in green)

mb_sample_id	local_sample_id	Treatment
SA163498	bileacid_Exp2_15_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163499	bileacid_Exp2_14_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163500	bileacid_Exp2_12_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163501	bileacid_Exp2_16_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163502	bileacid_Exp2_13_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163503	bileacid_Exp2_18_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163504	bileacid_Exp2_22_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163505	bileacid_Exp2_20_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163506	bileacid_Exp2_19_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163507	bileacid_Exp2_11_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163508	bileacid_Exp2_17_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163509	bileacid_Exp2_10_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163510	bileacid_Exp2_4_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163511	bileacid_Exp2_3_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163512	bileacid_Exp2_2_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163513	bileacid_Exp2_1_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163514	bileacid_Exp2_5_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163515	bileacid_Exp2_6_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163516	bileacid_Exp2_9_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163517	bileacid_Exp2_8_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163518	bileacid_Exp2_7_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163519	scfa_Exp2_22_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163520	scfa_Exp2_21_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163521	scfa_Exp2_6_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163522	scfa_Exp2_7_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163523	scfa_Exp2_8_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163524	scfa_Exp2_9_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163525	scfa_Exp2_5_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163526	scfa_Exp2_4_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163527	scfa_Exp2_1_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163528	scfa_Exp2_2_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163529	scfa_Exp2_3_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163530	scfa_Exp2_10_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163531	scfa_Exp2_11_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163532	scfa_Exp2_17_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163533	scfa_Exp2_18_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163534	scfa_Exp2_19_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163535	scfa_Exp2_20_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163536	scfa_Exp2_16_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163537	scfa_Exp2_15_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163538	scfa_Exp2_12_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163539	scfa_Exp2_13_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163540	scfa_Exp2_14_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163541	trps_Exp2_1_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163542	bileacid_Exp2_21_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163543	trps_Exp2_13_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163544	trps_Exp2_14_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163545	trps_Exp2_12_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163546	trps_Exp2_11_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163547	trps_Exp2_10_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163548	trps_Exp2_15_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163549	trps_Exp2_16_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163550	trps_Exp2_21_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163551	trps_Exp2_22_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163552	trps_Exp2_20_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163553	trps_Exp2_19_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163554	trps_Exp2_17_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163555	trps_Exp2_9_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163556	trps_Exp2_18_Hu+GUT108_week4	After 2 wk GUT/PBS therapy
SA163557	trps_Exp2_2_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163558	trps_Exp2_8_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163559	trps_Exp2_4_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163560	trps_Exp2_3_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163561	trps_Exp2_7_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163562	trps_Exp2_5_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163563	trps_Exp2_6_Hu+PBS_week4	After 2 wk GUT/PBS therapy
SA163564	scfa_Exp3_14_GUT108_week2	After GUT108/PBS therapy
SA163565	scfa_Exp3_6_PBS_week2	After GUT108/PBS therapy
SA163566	scfa_Exp3_4_PBS_week2	After GUT108/PBS therapy
SA163567	scfa_Exp3_15_GUT108_week2	After GUT108/PBS therapy
SA163568	scfa_Exp3_5_PBS_week2	After GUT108/PBS therapy
SA163569	scfa_Exp3_20_GUT108_week2	After GUT108/PBS therapy
SA163570	bileacid_Exp3_19_GUT108_week2	After GUT108/PBS therapy
SA163571	bileacid_Exp3_18_GUT108_week2	After GUT108/PBS therapy
SA163572	scfa_Exp3_3_PBS_week2	After GUT108/PBS therapy
SA163573	scfa_Exp3_19_GUT108_week2	After GUT108/PBS therapy
SA163574	scfa_Exp3_18_GUT108_week2	After GUT108/PBS therapy
SA163575	scfa_Exp3_17_GUT108_week2	After GUT108/PBS therapy
SA163576	trps_Exp3_5_PBS_week2	After GUT108/PBS therapy
SA163577	trps_Exp3_18_GUT108_week2	After GUT108/PBS therapy
SA163578	trps_Exp3_19_GUT108_week2	After GUT108/PBS therapy
SA163579	trps_Exp3_17_GUT108_week2	After GUT108/PBS therapy
SA163580	bileacid_Exp3_17_GUT108_week2	After GUT108/PBS therapy
SA163581	trps_Exp3_15_GUT108_week2	After GUT108/PBS therapy
SA163582	trps_Exp3_14_GUT108_week2	After GUT108/PBS therapy
SA163583	trps_Exp3_20_GUT108_week2	After GUT108/PBS therapy
SA163584	trps_Exp3_1_PBS_week2	After GUT108/PBS therapy
SA163585	trps_Exp3_3_PBS_week2	After GUT108/PBS therapy
SA163586	trps_Exp3_4_PBS_week2	After GUT108/PBS therapy
SA163587	trps_Exp3_6_PBS_week2	After GUT108/PBS therapy
SA163588	scfa_Exp3_1_PBS_week2	After GUT108/PBS therapy
SA163589	bileacid_Exp3_20_GUT108_week2	After GUT108/PBS therapy
SA163590	bileacid_Exp3_5_PBS_week2	After GUT108/PBS therapy
SA163591	bileacid_Exp3_4_PBS_week2	After GUT108/PBS therapy
SA163592	bileacid_Exp3_3_PBS_week2	After GUT108/PBS therapy
SA163593	bileacid_Exp3_1_PBS_week2	After GUT108/PBS therapy
SA163594	bileacid_Exp3_15_GUT108_week2	After GUT108/PBS therapy
SA163595	bileacid_Exp3_6_PBS_week2	After GUT108/PBS therapy
SA163596	bileacid_Exp3_14_GUT108_week2	After GUT108/PBS therapy
SA163597	trps_Exp3_15_GUT108_week0	Before GUT108/PBS therapy (baseline)

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Collection:

Collection ID:	CO001818
Collection Summary:	For samples for targeted metabolomics analysis, mouse cecal content and/or feces were collected.
Collection Protocol ID:	University of North Carolina at Chapel Hill Institutional Animal Care and Use Committee (18-266.0-B)
Sample Type:	Feces
Storage Conditions:	-80℃

Treatment:

Treatment ID:	TR001838
Treatment Summary:	For treatment 200 µl of diluted human donor stool was applied by oral gavage on day 1 to Il10-/- mice. The stool was derived from a single healthy donor, Donor-Y, and was previously found to induce moderate to severe colitis in Il10-/- mice. One gram stool was diluted 100- fold with anaerobic PBS, and vigorously mixed for 5 minutes under anaerobic conditions. For application of GUT-103 and GUT-108, 300µl resuspended strain mixture in anaerobic PBS was applied per mouse by oral gavage. GUT-103 and GUT-108 strains were grown individually, subsequently mixed to equal concentrations (cfu/ml), and provided at a dose of 2.0x10+7 cfu/strain in a total volume of 300 µl. The strain mixture was provided four times via oral gavage on days 15, 17, 22 and 25 (Il10-/- mice) or on days 1, 3, 8 and 11 (Il10+/eGFP mice).

Treatment ID:

TR001838

Treatment Summary:

For treatment 200 µl of diluted human donor stool was applied by oral gavage on day 1 to Il10-/- mice. The stool was derived from a single healthy donor, Donor-Y, and was previously found to induce moderate to severe colitis in Il10-/- mice. One gram stool was diluted 100- fold with anaerobic PBS, and vigorously mixed for 5 minutes under anaerobic conditions. For application of GUT-103 and GUT-108, 300µl resuspended strain mixture in anaerobic PBS was applied per mouse by oral gavage. GUT-103 and GUT-108 strains were grown individually, subsequently mixed to equal concentrations (cfu/ml), and provided at a dose of 2.0x10+7 cfu/strain in a total volume of 300 µl. The strain mixture was provided four times via oral gavage on days 15, 17, 22 and 25 (Il10-/- mice) or on days 1, 3, 8 and 11 (Il10+/eGFP mice).

Sample Preparation:

Sampleprep ID:	SP001831
Sampleprep Summary:	Bile acids, SCFAs, and tryptophan metabolites were extracted (with careful cleanup or derivatization procedures whenever necessary) and analyzed using mass spectrometry-based platforms.
Sampleprep Protocol Filename:	Protocols.pdf
Processing Storage Conditions:	On ice
Extraction Method:	Bile acid: SPE and LLE; SCFA: alkaline aqueous extraction; tryptophan metabolites: 1:1 MeOH:Water LLE
Extract Cleanup:	For Bile acids, C18 solid-phase extraction cleanup and concentration was used.
Extract Storage:	-80℃
Sample Derivatization:	For SCFAs, propyl chloroformate derivatization was performed.

Combined analysis:

Analysis ID	AN002845	AN002846	AN002847
Analysis type	MS	MS	MS
Chromatography type	GC	Reversed phase	Reversed phase
Chromatography system	Agilent 7820A	Thermo Vanquish	Thermo Vanquish
Column	Agilent DB5-MS (30m x 0.25mm, 0.25um)	Waters Acquity BEH HSS T3 (100 x 2.1mm,1.8um)	Waters Acquity BEH C18 (150 x 2mm,1.7um)
MS Type	EI	ESI	ESI
MS instrument type	Single quadrupole	Orbitrap	Triple quadrupole
MS instrument name	Agilent 5977B	Thermo Q Exactive Orbitrap	Thermo Quantis QQQ
Ion Mode	POSITIVE	POSITIVE	NEGATIVE
Units	μmol/kg	ng/g	mg/g

Chromatography:

Chromatography ID:	CH002106
Chromatography Summary:	Generic DB-5ms GC capillary column for analysis of SCFA derivatives.
Instrument Name:	Agilent 7820A
Column Name:	Agilent DB5-MS (30m x 0.25mm, 0.25um)
Chromatography Type:	GC

Chromatography ID:	CH002107
Chromatography Summary:	C18 LC (HSS-T3) for quantitation of tryptophan metabolites
Instrument Name:	Thermo Vanquish
Column Name:	Waters Acquity BEH HSS T3 (100 x 2.1mm,1.8um)
Chromatography Type:	Reversed phase

Chromatography ID:	CH002108
Chromatography Summary:	C18 LC (BEH C18) and (HSS T3) for quantitation of bile acids
Instrument Name:	Thermo Vanquish
Column Name:	Waters Acquity BEH C18 (150 x 2mm,1.7um)
Chromatography Type:	Reversed phase

MS:

MS ID:	MS002638
Analysis ID:	AN002845
Instrument Name:	Agilent 5977B
Instrument Type:	Single quadrupole
MS Type:	EI
MS Comments:	fullscan data with scan range of m/z 30-600; Peak integration was performed in MassHunter Qual.
Ion Mode:	POSITIVE

MS ID:	MS002639
Analysis ID:	AN002846
Instrument Name:	Thermo Q Exactive Orbitrap
Instrument Type:	Orbitrap
MS Type:	ESI
MS Comments:	Optimized PRM method scanning characteristic MS2 fragment ion for absolute quantitation.
Ion Mode:	POSITIVE

MS ID:	MS002640
Analysis ID:	AN002847
Instrument Name:	Thermo Quantis QQQ
Instrument Type:	Triple quadrupole
MS Type:	ESI
MS Comments:	Optimized SRM method scanning characteristic MS2 fragment ion for absolute quantitation.
Ion Mode:	NEGATIVE