Summary of Study ST002800

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 PR001747. The data can be accessed directly via it's Project DOI: 10.21228/M8WH9J 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	ST002800
Study Title	Hepatic oxylipin profiles in mouse models of Wilson disease: new insights into early hepatic manifestations.
Study Summary	Hepatic inflammation is commonly identified in Wilson disease (WD), a genetic disease of hepatic and brain copper accumulation. Copper accumulation is associated with increased reactive oxygen species and activation of the non-enzymatic oxidation of membrane-bound polyunsaturated fatty acids (PUFA), with impairment of cellular structures and function. Products of PUFA oxidation are collectively known as oxylipins (OXL), which can also be produced via enzymatic pathways including lipoxygenases (LOXs), cyclooxygenases (COXs), and cytochrome P450 monooxygenases (CYPs). These bioactive lipids modulate hepatic inflammation. We aimed to examine hepatic OXLs profile at early stages of WD in mouse model of Wilson disease, the toxic milk from The Jackson Laboratory (tx-j) compared to mice with normal copper metabolism (C3H). Targeted lipidomic profiling of OXLs was performed by ultra-high-performance liquid chromatography-electrospray ionization-tandem mass spectrometry (UPLC-ESI-MS/MS) in livers from 16 weeks old male and female mice. Hepatic OXL profiles were altered, with higher levels of PUFA alcohols, diols, and ketones. Markers of oxidative stress, 9-HETE and 9-HEPE were increased in tx-j mice. Hepatic prostaglandin and thromboxane levels in the COX pathway were increased in tx-j mice. tx-j showed altered PUFA-epoxides, suggesting altered CYP(s) activities. Our findings suggest that both non-enzymatic ROS-dependent and enzymatic PUFAs oxidation via COX and LOX pathways are associated with early stages liver disease in WD. It also indicates altered CYPs activities in animal model of WD. These novel pathways could be the target for future therapies.
Institute	University of California, Davis
Last Name	Sarode
First Name	Gaurav
Address	Genome & Biomedical Sciences Facility, 451 E. Health Sciences Dr., Davis, CA, 95616, USA
Email	gsarode@ucdavis.edu
Phone	530752-6715
Submit Date	2023-07-18
Raw Data Available	Yes
Raw Data File Type(s)	wiff
Analysis Type Detail	LC-MS
Release Date	2024-01-18
Release Version	1

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Project:

Project ID:	PR001747
Project DOI:	doi: 10.21228/M8WH9J
Project Title:	Hepatic oxylipin profiles in mouse models of Wilson disease: new insights into early hepatic manifestations.
Project Summary:	Hepatic inflammation is commonly identified in Wilson disease (WD), a genetic disease of hepatic and brain copper accumulation. Copper accumulation is associated with increased reactive oxygen species and activation of the non-enzymatic oxidation of membrane-bound polyunsaturated fatty acids (PUFA), with impairment of cellular structures and function. Products of PUFA oxidation are collectively known as oxylipins (OXL), which can also be produced via enzymatic pathways including lipoxygenases (LOXs), cyclooxygenases (COXs), and cytochrome P450 monooxygenases (CYPs). These bioactive lipids modulate hepatic inflammation. We aimed to examine hepatic OXLs profile at early stages of WD in mouse model of Wilson disease, the toxic milk from The Jackson Laboratory (tx-j) compared to mice with normal copper metabolism (C3H). Targeted lipidomic profiling of OXLs was performed by ultra-high-performance liquid chromatography-electrospray ionization-tandem mass spectrometry (UPLC-ESI-MS/MS) in livers from 16 weeks old male and female mice. Hepatic OXL profiles were altered, with higher levels of PUFA alcohols, diols, and ketones. Markers of oxidative stress, 9-HETE and 9-HEPE were increased in tx-j mice. Hepatic prostaglandin and thromboxane levels in the COX pathway were increased in tx-j mice. tx-j showed altered PUFA-epoxides, suggesting altered CYP(s) activities. Our findings suggest that both non-enzymatic ROS-dependent and enzymatic PUFAs oxidation via COX and LOX pathways are associated with early stages liver disease in WD. It also indicates altered CYPs activities in animal model of WD. These novel pathways could be the target for future therapies.
Institute:	University of California, Davis
Department:	Internal Medicine
Laboratory:	Medici's Lab
Last Name:	Sarode
First Name:	Gaurav
Address:	Genome & Biomedical Sciences Facility, 451 E. Health Sciences Dr., Davis, CA, 95616, USA
Email:	gsarode@ucdavis.edu
Phone:	530752-6715

Subject:

Subject ID:	SU002907
Subject Type:	Mammal
Subject Species:	Mus musculus
Taxonomy ID:	10090

Factors:

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

mb_sample_id	local_sample_id	Treatment
SA300730	930	C3H 5001
SA300731	928	C3H 5001
SA300732	926	C3H 5001
SA300733	900	C3H 5001
SA300734	927	C3H 5001
SA300735	929	C3H 5001
SA300736	906	C3H 5001
SA300737	901	C3H 5001
SA300738	903	C3H 5001
SA300739	902	C3H 5001
SA300740	905	C3H 5001
SA300741	904	C3H 5001
SA300742	922	tx-J 5001
SA300743	921	tx-J 5001
SA300744	923	tx-J 5001
SA300745	924	tx-J 5001
SA300746	920	tx-J 5001
SA300747	925	tx-J 5001
SA300748	916	tx-J 5001
SA300749	911	tx-J 5001
SA300750	910	tx-J 5001
SA300751	909	tx-J 5001
SA300752	908	tx-J 5001
SA300753	912	tx-J 5001
SA300754	913	tx-J 5001
SA300755	918	tx-J 5001
SA300756	917	tx-J 5001
SA300757	915	tx-J 5001
SA300758	914	tx-J 5001
SA300759	919	tx-J 5001

Showing results 1 to 30 of 30

Showing results 1 to 30 of 30

Collection:

Collection ID:	CO002900
Collection Summary:	The liver was isolated. All samples were stored at -80°C until further analysis.
Sample Type:	Liver

Treatment:

Treatment ID:	TR002916
Treatment Summary:	NA

Sample Preparation:

Sampleprep ID:	SP002913
Sampleprep Summary:	Weigh 1-15 mg tissue aliquots on dry ice, record exact weights, place in 2-mL eppendorf tubes labeled on cap, keep frozen Add 10 µL anti-oxidant soln, (0.2 mg/ml solution BHT/EDTA in 1:1 meoh:water) Add 10 uL of surrogate standards Add 500 uL of cold methanol as extraction solvent and stainless steel grinding balls Homogenize using GenoGrinder 2x30 sec, centrifuge, transfer supernatant to a 1.5-mL eppendorf tube (Cryo-label on side) containing 10 µL 20% glycerol solution in MeOH Add a second aliquot of 500 uL of cold methanol to centrifugation pellet Homogenize using GenoGrinder 2x30 sec, centrifuge, combine this second supernatant with the first one in the 1.5-mL eppendorf tube Transfer vials to Speed-vac and evaporate to dryness or transfer to 96 well plate and Gene-Vac to dryness. Assure samples are dry before removing from evaporation process. Reconstitute samples for LC-MS in PHAU/CUDA 50 nM in methanol/ACN 50:50, vortex for 10 sec, then sonicate for 5 min. Set rack of samples on wet ice for 15min Centrifuge for 3 min at highest speed, then transfer supernatant to glass insert in amber HPLC vial / 96 well plate Store at -20°C until LCMS analysis

Sampleprep ID:

SP002913

Sampleprep Summary:

Weigh 1-15 mg tissue aliquots on dry ice, record exact weights, place in 2-mL eppendorf tubes labeled on cap, keep frozen Add 10 µL anti-oxidant soln, (0.2 mg/ml solution BHT/EDTA in 1:1 meoh:water) Add 10 uL of surrogate standards Add 500 uL of cold methanol as extraction solvent and stainless steel grinding balls Homogenize using GenoGrinder 2x30 sec, centrifuge, transfer supernatant to a 1.5-mL eppendorf tube (Cryo-label on side) containing 10 µL 20% glycerol solution in MeOH Add a second aliquot of 500 uL of cold methanol to centrifugation pellet Homogenize using GenoGrinder 2x30 sec, centrifuge, combine this second supernatant with the first one in the 1.5-mL eppendorf tube Transfer vials to Speed-vac and evaporate to dryness or transfer to 96 well plate and Gene-Vac to dryness. Assure samples are dry before removing from evaporation process. Reconstitute samples for LC-MS in PHAU/CUDA 50 nM in methanol/ACN 50:50, vortex for 10 sec, then sonicate for 5 min. Set rack of samples on wet ice for 15min Centrifuge for 3 min at highest speed, then transfer supernatant to glass insert in amber HPLC vial / 96 well plate Store at -20°C until LCMS analysis

Combined analysis:

Analysis ID	AN004556
Analysis type	MS
Chromatography type	Reversed phase
Chromatography system	Shimadzu Nexera X2
Column	Waters ACQUITY UPLC BEH C18 (100 x 2.1mm,1.7um)
MS Type	ESI
MS instrument type	Triple quadrupole
MS instrument name	ABI Sciex 6500 QTrap
Ion Mode	UNSPECIFIED
Units	nM

Chromatography:

Chromatography ID:	CH003423
Instrument Name:	Shimadzu Nexera X2
Column Name:	Waters ACQUITY UPLC BEH C18 (100 x 2.1mm,1.7um)
Column Temperature:	65°C
Flow Gradient:	75% ACN:IPA 90:10 (v/v) with 0.1% Acetic acid
Flow Rate:	0.6 mL/min
Solvent A:	100% water; 0.1% acetic acid
Solvent B:	90% acetonitrile/ 10% isopropanol
Chromatography Type:	Reversed phase

MS:

MS ID:	MS004303
Analysis ID:	AN004556
Instrument Name:	ABI Sciex 6500 QTrap
Instrument Type:	Triple quadrupole
MS Type:	ESI
MS Comments:	LC/MS on Thermo Scientific Vanquish UPLC/Sciex Qtrap with targeted MRM method (developed by Newman lab, optimized for Fiehn lab setup). See protocol file.
Ion Mode:	UNSPECIFIED
Analysis Protocol File:	Oxy-EC_analysis_protocol.pdf