Summary of Study ST000655

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 PR000461. The data can be accessed directly via it's Project DOI: 10.21228/M8G609 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 ID	ST000655
Study Title	Omega-6 and omega-3 oxylipins are implicated in soybean oil-induced obesity in mice (part II)
Study Summary	In this study we have compared the metabolic effects of conventional soybean oil to those of genetically modified Plenish soybean oil, that is low in linoleic acid and high in oleic acid. This work builds on our previous study showing that soybean oil, rich in polyunsaturated fats, is more obesogenic and diabetogenic than coconut oil, rich in saturated fats (PMID: 26200659). Here, in order to elucidate the mechanisms responsible for soybean oil induced obesity, we have performed the first ever metabolomics (in plasma and liver) and proteomics on the livers of mice fed the two soybean oil diets (plus those fed a high coconut oil and Viv chow diet). Our results show that the new high oleic soybean oil induces less obesity and adiposity than conventional soybean oil, but can cause hepatomegaly and liver dysfunction. Metabolomic analysis reveals that the hepatic and plasma metabolic profiles differ considerably between the two soybean oils. Hepatic C18 oxylipin metabolites of omega-6 (ω6) and omega-3 (ω3) fatty acids (linoleic and α-linolenic acid, respectively) in the cytochrome P450/soluble epoxide hydrolase pathway were found to correlate positively with obesity.
Institute	University of California, Davis
Department	Genome and Biomedical Sciences Facility
Laboratory	WCMC Metabolomics Core
Last Name	Fiehn
First Name	Oliver
Address	1315 Genome and Biomedical Sciences Facility, 451 Health Sciences Drive, Davis, CA 95616
Email	ofiehn@ucdavis.edu
Phone	(530) 754-8258
Submit Date	2017-06-22
Raw Data File Type(s)	d
Analysis Type Detail	LC-MS
Release Date	2017-07-01
Release Version	1

Select appropriate tab below to view additional metadata details:

Project:

Project ID:	PR000461
Project DOI:	doi: 10.21228/M8G609
Project Title:	Omega-6 and omega-3 oxylipins are implicated in soybean oil-induced obesity in mice
Project Summary:	In this study we have compared the metabolic effects of conventional soybean oil to those of genetically modified Plenish soybean oil, that is low in linoleic acid and high in oleic acid. This work builds on our previous study showing that soybean oil, rich in polyunsaturated fats, is more obesogenic and diabetogenic than coconut oil, rich in saturated fats (PMID: 26200659). Here, in order to elucidate the mechanisms responsible for soybean oil induced obesity, we have performed the first ever metabolomics (in plasma and liver) and proteomics on the livers of mice fed the two soybean oil diets (plus those fed a high coconut oil and Viv chow diet). Our results show that the new high oleic soybean oil induces less obesity and adiposity than conventional soybean oil, but can cause hepatomegaly and liver dysfunction. Metabolomic analysis reveals that the hepatic and plasma metabolic profiles differ considerably between the two soybean oils. Hepatic C18 oxylipin metabolites of omega-6 (ω6) and omega-3 (ω3) fatty acids (linoleic and α-linolenic acid, respectively) in the cytochrome P450/soluble epoxide hydrolase pathway were found to correlate positively with obesity.
Institute:	University of California, Riverside
Department:	Cell Biology and Neuroscience
Last Name:	Sladek
First Name:	Frances
Address:	2115 Biological Sciences Building,University of California, Riverside, CA 92521-0314
Email:	frances.sladek@ucr.edu
Phone:	951-827-2264

Subject:

Subject ID:	SU000678
Subject Type:	Animal
Subject Species:	Mus musculus
Taxonomy ID:	10090
Genotype Strain:	C57/BL6N
Gender:	Male
Animal Housing:	SPF facility
Animal Light Cycle:	12:12 h light-dark cycle
Animal Feed:	Ad libitum
Animal Water:	Ad libitum
Species Group:	Mammal

Factors:

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

mb_sample_id	local_sample_id	GROUP_DESCRIPTION	TIME_POINT	Genotype
SA037565	CSH_PM D4-16 e3_pos_MS_1032014.d	HFD	24 weeks	WT C57-Bl6
SA037566	CSH_PM D4-18 e4_pos_MS_1032014.d	HFD	24 weeks	WT C57-Bl6
SA037567	CSH_PM D4-16 e1_pos_MS_1032014.d	HFD	24 weeks	WT C57-Bl6
SA037568	CSH_PM D4-16 e4_pos_MS_1032014.d	HFD	24 weeks	WT C57-Bl6
SA037569	CSH_PM D4-18 e2_pos_MS_1032014.d	HFD	24 weeks	WT C57-Bl6
SA037570	CSH_PM D4-18 e3_pos_MS_1032014.d	HFD	24 weeks	WT C57-Bl6
SA037571	CSH_PM D4-18 e1_pos_MS_1032014.d	HFD	24 weeks	WT C57-Bl6
SA037572	CSH_PM D4-16 e2_pos_MS_1032014.d	HFD	24 weeks	WT C57-Bl6
SA037573	CSH_PM a7 D4-4 e4_pos_MS_1032014.d	HFD	35 weeks	HMZ a7
SA037574	CSH_PM a7 D4-4 e2_pos_MS_1032014.d	HFD	35 weeks	HMZ a7
SA037575	CSH_PM a7 D4-2 e2_pos_MS_1032014.d	HFD	35 weeks	HMZ a7
SA037576	CSH_PM a7 D4-2 e1_pos_MS_1032014.d	HFD	35 weeks	HMZ a7
SA037577	CSH_PM a7 D4-2 e3_pos_MS_1032014.d	HFD	35 weeks	HMZ a7
SA037578	CSH_PM a7 D4-2 e4_pos_MS_1032014.d	HFD	35 weeks	HMZ a7
SA037579	CSH_PM a7 D4-4 e1_pos_MS_1032014.d	HFD	35 weeks	HMZ a7
SA037580	CSH_PM a7 D4-4 e3_pos_MS_1032014.d	HFD	35 weeks	HMZ a7
SA037581	CSH_PM D4-9 e1_pos_MS_1032014.d	HFD	35 weeks	WT C57-Bl6
SA037582	CSH_PM D4-11 e3_pos_MS_1032014.d	HFD	35 weeks	WT C57-Bl6
SA037583	CSH_PM D4-9 e3_pos_MS_1032014.d	HFD	35 weeks	WT C57-Bl6
SA037584	CSH_PM D4-11 e1_pos_MS_1032014.d	HFD	35 weeks	WT C57-Bl6
SA037585	CSH_PM D4-10 e3_pos_MS_1032014.d	HFD	35 weeks	WT C57-Bl6
SA037586	CSH_PM D4-10 e2_pos_MS_1032014.d	HFD	35 weeks	WT C57-Bl6
SA037587	CSH_PM D4-10 e1_pos_MS_1032014.d	HFD	35 weeks	WT C57-Bl6
SA037588	CSH_PM D4-9 e2_pos_MS_1032014.d	HFD	35 weeks	WT C57-Bl6
SA037589	CSH_PM D3-18 e3_pos_MS_1032014.d	LA-HFD	24 weeks	WT C57-Bl6
SA037590	CSH_PM D3-18 e4_pos_MS_1032014.d	LA-HFD	24 weeks	WT C57-Bl6
SA037591	CSH_PM D3-18 e2_pos_MS_1032014.d	LA-HFD	24 weeks	WT C57-Bl6
SA037592	CSH_PM D3-17 e2_pos_MS_1032014.d	LA-HFD	24 weeks	WT C57-Bl6
SA037593	CSH_PM D3-17 e1_pos_MS_1032014.d	LA-HFD	24 weeks	WT C57-Bl6
SA037594	CSH_PM D3-18 e1_pos_MS_1032014.d	LA-HFD	24 weeks	WT C57-Bl6
SA037595	CSH_PM D3-17 e4_pos_MS_1032014.d	LA-HFD	24 weeks	WT C57-Bl6
SA037596	CSH_PM D3-17 e3_pos_MS_1032014.d	LA-HFD	24 weeks	WT C57-Bl6
SA037597	CSH_PM a7 D3-4 e4_pos_MS_1032014.d	LA-HFD	35 weeks	HMZ a7
SA037598	CSH_PM a7 D3-1 e3_pos_MS_1032014.d	LA-HFD	35 weeks	HMZ a7
SA037599	CSH_PM a7 D3-5 e1_pos_MS_1032014.d	LA-HFD	35 weeks	HMZ a7
SA037600	CSH_PM a7 D3-4 e2_pos_MS_1032014.d	LA-HFD	35 weeks	HMZ a7
SA037601	CSH_PM a7 D3-5 e2_pos_MS_1032014.d	LA-HFD	35 weeks	HMZ a7
SA037602	CSH_PM a7 D3-5 e3_pos_MS_1032014.d	LA-HFD	35 weeks	HMZ a7
SA037603	CSH_PM a7 D3-5 e5_pos_MS_1032014.d	LA-HFD	35 weeks	HMZ a7
SA037604	CSH_PM a7 D3-5 e4_pos_MS_1032014.d	LA-HFD	35 weeks	HMZ a7
SA037605	CSH_PM D3-12 e3_pos_MS_1032014.d	LA-HFD	35 weeks	WT C57-Bl6
SA037606	CSH_PM D3-13 e3_pos_MS_1032014.d	LA-HFD	35 weeks	WT C57-Bl6
SA037607	CSH_PM D3-12 e1_pos_MS_1032014.d	LA-HFD	35 weeks	WT C57-Bl6
SA037608	CSH_PM D3-10 e4_pos_MS_1032014.d	LA-HFD	35 weeks	WT C57-Bl6
SA037609	CSH_PM D3-10 e1_pos_MS_1032014.d	LA-HFD	35 weeks	WT C57-Bl6
SA037610	CSH_PM D3-11 e2_pos_MS_1032014.d	LA-HFD	35 weeks	WT C57-Bl6
SA037611	CSH_PM D3-11 e3_pos_MS_1032014.d	LA-HFD	35 weeks	WT C57-Bl6
SA037612	CSH_PM D3-11 e1_pos_MS_1032014.d	LA-HFD	35 weeks	WT C57-Bl6
SA037613	QC002	N/A	N/A	N/A
SA037614	QC003	N/A	N/A	N/A
SA037615	QC001	N/A	N/A	N/A
SA037616	CSH_PM PL-4 e3_pos_MS_1032014.d	PL-HFD	24 weeks	WT C57-Bl6
SA037617	CSH_PM PL-4 e2_pos_MS_1032014.d	PL-HFD	24 weeks	WT C57-Bl6
SA037618	CSH_PM PL-4 e4_pos_MS_1032014.d	PL-HFD	24 weeks	WT C57-Bl6
SA037619	CSH_PM PL-5 e2_pos_MS_1032014.d	PL-HFD	24 weeks	WT C57-Bl6
SA037620	CSH_PM PL-5 e4_pos_MS_1032014.d	PL-HFD	24 weeks	WT C57-Bl6
SA037621	CSH_PM PL-4 e1_pos_MS_1032014.d	PL-HFD	24 weeks	WT C57-Bl6
SA037622	CSH_PM PL-5 e1_pos_MS_1032014.d	PL-HFD	24 weeks	WT C57-Bl6
SA037623	CSH_PM PL-5 e3_pos_MS_1032014.d	PL-HFD	24 weeks	WT C57-Bl6
SA037624	CSH_PM 14 e3_pos_MS_1032014.d	Viv chow	24 weeks	WT C57-Bl6
SA037625	CSH_PM 14 e2_pos_MS_1032014.d	Viv chow	24 weeks	WT C57-Bl6
SA037626	CSH_PM 14 e4_pos_MS_1032014.d	Viv chow	24 weeks	WT C57-Bl6
SA037627	CSH_PM 16 e2_pos_MS_1032014.d	Viv chow	24 weeks	WT C57-Bl6
SA037628	CSH_PM 10 e1_pos_MS_1032014.d	Viv chow	24 weeks	WT C57-Bl6
SA037629	CSH_PM 16 e4_pos_MS_1032014.d	Viv chow	24 weeks	WT C57-Bl6
SA037630	CSH_PM 14 e1 _pos_MS_1032014.d	Viv chow	24 weeks	WT C57-Bl6
SA037631	CSH_PM 16 e1_pos_MS_1032014.d	Viv chow	24 weeks	WT C57-Bl6
SA037632	CSH_PM a7 V-3 e1_pos_MS_1032014.d	Viv chow	35 weeks	HMZ a7
SA037633	CSH_PM a7 V-1 e3_pos_MS_1032014.d	Viv chow	35 weeks	HMZ a7
SA037634	CSH_PM a7 V-1 e2_pos_MS_1032014.d	Viv chow	35 weeks	HMZ a7
SA037635	CSH_PM a7 V-2 e1_pos_MS_1032014.d	Viv chow	35 weeks	HMZ a7
SA037636	CSH_PM a7 V-2 e2_pos_MS_1032014.d	Viv chow	35 weeks	HMZ a7
SA037637	CSH_PM a7 V-3 e2_pos_MS_1032014.d	Viv chow	35 weeks	HMZ a7
SA037638	CSH_PM a7 V-1 e4_pos_MS_1032014.d	Viv chow	35 weeks	HMZ a7
SA037639	CSH_PM a7 V-3 e3_pos_MS_1032014.d	Viv chow	35 weeks	HMZ a7
SA037640	CSH_PM 9 e3_pos_MS_1032014.d	Viv chow	35 weeks	WT C57-Bl6
SA037641	CSH_PM 9 e4_pos_MS_1032014.d	Viv chow	35 weeks	WT C57-Bl6
SA037642	CSH_PM 9 e2_pos_MS_1032014.d	Viv chow	35 weeks	WT C57-Bl6
SA037643	CSH_PM 10 e2_pos_MS_1032014.d	Viv chow	35 weeks	WT C57-Bl6
SA037644	CSH_PM 10 e3_pos_MS_1032014.d	Viv chow	35 weeks	WT C57-Bl6
SA037645	CSH_PM 10 e4_pos_MS_1032014.d	Viv chow	35 weeks	WT C57-Bl6
SA037646	CSH_PM 9 e1 _pos_MS_1032014.d	Viv chow	35 weeks	WT C57-Bl6

Showing results 1 to 82 of 82

Showing results 1 to 82 of 82

Collection:

Collection ID:	CO000672
Collection Summary:	Liver tissue from mice on the diets for 24 weeks for metabolomic analysis was collected, rinsed in cold PBS, excess fluid was blotted with a kim-wipe and tissue was immediately snap frozen in liquid nitrogen before storage at -80°C. Blood was collected by cardiac puncture and centrifuged at 9 rcf for 5 min at 4°C. Plasma was stored immediately at -20°C.
Sample Type:	Blood

Treatment:

Treatment ID:	TR000692
Treatment Summary:	Male C57/BL6N mice weaned at 3 weeks of age were randomly assigned to one of the four diets: 1) VIV chow: normal rodent chow, low in fat and high in fiber 2) HFD: 40 kcal% coconut oil 3) LA-HFD: 40 kcal% total fat soybean oil diet (21 kcal% from coconut oil and 19 kcal% from soybean oil) 4) PL-HFD: 40 kcal% total fat Plenish oil diet (21 kcal% from coconut oil and 19 kcal% from Plenish oil)

Sample Preparation:

Sampleprep ID:	SP000685
Sampleprep Summary:	1) Keep Specimen on Dry Ice 2) Transfer Tissue Contents into a new 1.5mL labeled eppendorf tube; keep on dry ice at all times 3) Add three (3) 3mm metal grinding balls to each sample; store in -80C for 10minutes 4) Homogenize the entire tissue to fine powder using genogrinder; make sure that the metal grinding balls are ice-cold prior to homogenization (step 3) 5) Upon completion of homogenization, keep samples on dry ice 6) Weight out two (2) aliquots: a ~5mg aliquot for CSH_lipidomics and a ~4mg aliquot for Primary Metabolites by GCTOF a. Record the exact weight weighed out for each sample b. Keep all samples on dry ice 7) KEEP remaining tissue specimen (>90mg) for analysis of Oxylipins (store in -80C) 8) Analysis of Primary Metabolites (GCTOFMS) a. Add 1mL of ice-cold “degassed” 3:3:2 ACN/IPA/H2O b. Vortex for 10seconds c. Shake on shaker for 20min at -4C d. Centrifuge the samples for 2min at 14,000 rcf e. Transfer two (2) 500μL aliquots to new 1.5mL eppendorf tubes; one for backup the other to be dried to dryness using the SpeedVac f. IMPORTANT: The precipitated protein will be used for analysis of the proteome, DO NOT DISCARD THESE; Place these in a separate labeled box and store in -20C g. Keep all samples on ice during extraction period h. Dry down one (1) 500μL aliquot to complete dryness i. Perform cleanup on dried aliquot using 500μL of 50/50 v/v ACN/H2O j. Transfer supernatant and dry to completeness k. Submit for Derivatization 9) Analysis of Complex Lipids (LCQTOF) a. Add 225μL of ice-cold “degassed” MeOH containing “ISTD mixture” to homogenized 5mg aliquot b. Vortex for 10 seconds c. Add 750μL of ice-cold “degassed” MTBE containing 22:1 CE ISTD d. Vortex for 10 seconds e. Shake on Orbital Mixer for 6min at 4C f. Add 188μL of room temperature H2O g. Vortex for 20 seconds h. Centrifuge for 2min at 14,000 rcf i. Transfer two (2) aliquots of 350μL of top layer, one for backup stored in -20C, the other for analysis j. Keep bottom layer and store in -20C k. Dry down one (1) 350μL aliquot to dryness using the Speedvac l. Resuspend samples in 108.6μL of 50ng/mL CUDA m. Vortex and sonicate for 5minutes n. Centrifuge for 2min at 14,000 rcf o. Transfer 90μL to an amber vial with micro-insert (non-diluted) p. Transfer 10μL to a new 1.5mL eppendorf tube, dilute 20X with 50ng/mL CUDA in 90:10 MeOH:Toluene (10μL + 190μL CUDA) and transfer 100μL to amber vial with micro-insert (diluted for TGs) i. The dilution is based off previous experiences with liver samples
Sampleprep Protocol Filename:	SP_Extraction_Protocol_for_liver_multi-omic.pdf

Combined analysis:

Analysis ID	AN000999	AN001000
Analysis type	MS	MS
Chromatography type	Reversed phase	Reversed phase
Chromatography system	Agilent 6530	Agilent 6550
Column	Waters Acquity CSH C18 (100 x 2.1mm,1.7um)	Waters Acquity CSH C18 (100 x 2.1mm,1.7um)
MS Type	ESI	ESI
MS instrument type	QTOF	QTOF
MS instrument name	Agilent 6530 QTOF	Agilent 6550 QTOF
Ion Mode	POSITIVE	NEGATIVE
Units	Counts	Counts

Chromatography:

Chromatography ID:	CH000716
Methods Filename:	Data_Dictionary_Fiehn_laboratory_GCTOF_MS_primary_metabolism_10-15-2013_general.pdf
Instrument Name:	Agilent 6530
Column Name:	Waters Acquity CSH C18 (100 x 2.1mm,1.7um)
Column Pressure:	450-850 bar
Column Temperature:	65 C
Flow Gradient:	15% B to 99% B
Flow Rate:	0.6 mL/min
Injection Temperature:	4 C
Internal Standard:	See data dictionary
Retention Time:	See data dictionary
Sample Injection:	1.67 uL
Solvent A:	60% acetonitrile/40% water; 10mM formic acid; 10mM ammonium formate
Solvent B:	90% isopropanol/10% acetonitrile; 10mM formic acid; 10mM ammonium formate
Analytical Time:	13 min
Capillary Voltage:	3500
Time Program:	15 min
Weak Wash Solvent Name:	Isopropanol
Strong Wash Solvent Name:	Isopropanol
Target Sample Temperature:	Autosampler temp 4 C
Randomization Order:	Excel
Chromatography Type:	Reversed phase

Chromatography ID:	CH000717
Methods Filename:	Data_Dictionary_Fiehn_laboratory_GCTOF_MS_primary_metabolism_10-15-2013_general.pdf
Instrument Name:	Agilent 6550
Column Name:	Waters Acquity CSH C18 (100 x 2.1mm,1.7um)
Column Pressure:	450-850 bar
Column Temperature:	65 C
Flow Gradient:	15% B to 99% B
Flow Rate:	0.6 mL/min
Injection Temperature:	4 C
Internal Standard:	See data dictionary
Retention Time:	See data dictionary
Sample Injection:	5.0 uL
Solvent A:	40% water/60% acetonitrile; 0.1% formic acid; 10 mM ammonium formate
Solvent B:	90% isopropanol/10% acetonitrile; 10mM acetic acid; 10mM ammonium acetate
Analytical Time:	13 min
Capillary Voltage:	3500
Time Program:	15 min
Weak Wash Solvent Name:	Isopropanol
Strong Wash Solvent Name:	Isopropanol
Target Sample Temperature:	Autosampler temp 4 C
Randomization Order:	Excel
Chromatography Type:	Reversed phase

MS:

MS ID:	MS000894
Analysis ID:	AN000999
Instrument Name:	Agilent 6530 QTOF
Instrument Type:	QTOF
MS Type:	ESI
Ion Mode:	POSITIVE
Capillary Voltage:	3500 eV
Collision Energy:	25 eV
Collision Gas:	Nitrogen
Dry Gas Flow:	8L/min
Dry Gas Temp:	325 C
Fragment Voltage:	120 eV
Fragmentation Method:	Auto MS/MS
Ion Source Temperature:	325 C
Ion Spray Voltage:	1000
Ionization:	Pos
Precursor Type:	Intact Molecule
Reagent Gas:	Nitrogen
Source Temperature:	325 C
Dataformat:	.d
Desolvation Gas Flow:	11 L/min
Desolvation Temperature:	350 C
Nebulizer:	35 psig
Octpole Voltage:	750
Resolution Setting:	Exteded Dyamic Range
Scan Range Moverz:	60-1700 Da
Scanning Cycle:	2 Hz
Scanning Range:	60-1700 Da
Skimmer Voltage:	65

MS ID:	MS000895
Analysis ID:	AN001000
Instrument Name:	Agilent 6550 QTOF
Instrument Type:	QTOF
MS Type:	ESI
Ion Mode:	NEGATIVE
Capillary Voltage:	3500 eV
Collision Energy:	40 eV
Collision Gas:	Nitrogen
Dry Gas Flow:	13L/min
Dry Gas Temp:	200 C
Fragment Voltage:	175 eV
Fragmentation Method:	Auto MS/MS
Ion Source Temperature:	325 C
Ion Spray Voltage:	1000
Ionization:	Neg
Precursor Type:	Intact Molecule
Reagent Gas:	Nitrogen
Source Temperature:	325 C
Dataformat:	.d
Desolvation Gas Flow:	11 L/min
Desolvation Temperature:	350 C
Nebulizer:	35 psig
Octpole Voltage:	750
Resolution Setting:	Exteded Dyamic Range
Scan Range Moverz:	60-1700 Da
Scanning Cycle:	2 Hz
Scanning Range:	60-1700 Da
Skimmer Voltage:	65