Summary of Study ST002721

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 PR001687. The data can be accessed directly via it's Project DOI: 10.21228/M8NB07 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	ST002721
Study Title	Repeated Exposure to Wood Smoke Alters Pulmonary Gene and Metabolic Profiles
Study Summary	This project aims to evaluate the association of eucalyptus wood smoke exposure with perturbations to lung metabolism in a pre-clinical rat model. This cross-sectional study of male Long-Evans rats were exposed whole body to eucalyptus smoke for 4 consecutive days on week 1, followed by a 3-day break, and 3 subsequent days of smoke exposure on week 2. The smoke exposures were set to a target CO of 10ppm for the low smoke group and 20ppm for the high smoke group. Animal were sacrificed and lungs were extracted for metabolomics analysis. Exposures to eucalyptus smoke and biological perturbations to lung metabolism will be associated with known metabolic dysregulation associated with smoke exposures.
Institute	Emory University
Department	School of Medicine
Laboratory	Clinical Biomarkers Laboratory
Last Name	Tran
First Name	ViLinh
Address	615 Michael St, Suite 225, Atlanta, GA 30322, USA
Email	vtran6@emory.edu
Phone	4047275091
Submit Date	2023-05-12
Num Groups	3
Total Subjects	8
Num Males	8
Study Comments	Clinical Biomarker Laboratory pooled plasma samples were used
Raw Data Available	Yes
Raw Data File Type(s)	raw(Thermo)
Analysis Type Detail	LC-MS
Release Date	2024-05-13
Release Version	1

Select appropriate tab below to view additional metadata details:

Project:

Project ID:	PR001687
Project DOI:	doi: 10.21228/M8NB07
Project Title:	Repeated Exposure to Wood Smoke Alters Pulmonary Gene and Metabolic Profiles
Project Summary:	This project aims to evaluate the association of eucalyptus wood smoke exposure with perturbations to lung metabolism in a pre-clinical rat model. This cross-sectional study of male Long-Evans rats were exposed whole body to eucalyptus smoke for 4 consecutive days on week 1, followed by a 3-day break, and 3 subsequent days of smoke exposure on week 2. The smoke exposures were set to a target CO of 10ppm for the low smoke group and 20ppm for the high smoke group. Animal were sacrificed and lungs were extracted for metabolomics analysis. Exposures to eucalyptus smoke and biological perturbations to lung metabolism will be associated with known metabolic dysregulation associated with smoke exposures.
Institute:	Emory University
Department:	School of Medicine
Laboratory:	Clinical Biomarkers Laboratory
Last Name:	Tran
First Name:	ViLinh
Address:	615 Michael St, Suite 225, Atlanta, GA 30322, USA
Email:	vtran6@emory.edu
Phone:	404-727-5091
Contributors:	Matthew R. Smith, PdD, Collette M. Miller, PhD, Kymberly M. Gowdy, PhD, Dean P. Jones, PhD

Subject:

Subject ID:	SU002827
Subject Type:	Mammal
Subject Species:	Rattus norvegicus
Taxonomy ID:	10116
Age Or Age Range:	12 weeks
Gender:	Male

Factors:

Subject type: Mammal; Subject species: Rattus norvegicus (Factor headings shown in green)

mb_sample_id	local_sample_id	Class
SA273814	47_1	15
SA273815	42_1	15
SA273816	48_1	15
SA273817	46_1	15
SA273818	44_1	15
SA273819	45_1	15
SA273820	41_1	15
SA273821	43_1	15
SA273806	25_1	7.5
SA273807	32_1	7.5
SA273808	27_1	7.5
SA273809	30_1	7.5
SA273810	28_1	7.5
SA273811	26_1	7.5
SA273812	29_1	7.5
SA273813	31_1	7.5
SA273822	14_1	Air
SA273823	9_1	Air
SA273824	11_1	Air
SA273825	15_1	Air
SA273826	10_1	Air
SA273827	13_1	Air
SA273828	12_1	Air
SA273829	16_1	Air
SA273830	q3June2014_1f_1	NA
SA273831	nist2_1	NA
SA273832	q3June2014_1e_1	NA
SA273833	q3June2014_1a_1	NA
SA273834	q3June2014_1c_1	NA
SA273835	nist1_1	NA
SA273836	q3June2014_1d_1	NA
SA273837	q3June2014_1b_1	NA

Showing results 1 to 32 of 32

Showing results 1 to 32 of 32

Collection:

Collection ID:	CO002820
Collection Summary:	The intact left lung was removed, and a longitudinal section was made to produce tissue samples for downstream metabolomic assessments. Lung section were frozen in liquid nitrogen and stored at -80°C until use. The samples were shipped on dry ice from the clinical centers to the Clinical Biomarkers Laboratory at Emory University.
Sample Type:	Lung
Storage Conditions:	-80℃

Treatment:

Treatment ID:	TR002836
Treatment Summary:	Samples were received frozen in aliquots of lung tissue. Prior to analysis, samples were thawed and prepared for HRM analysis using the standard protocols described in the Sample Preparation section. Eucalyptus was selected as the biomass of interest due to its prevalence and likeness of chaparral ecosystems present in Southern California and Australia, areas that have experienced growing severity of wildland fires in recent years. To mimic the deployment of common fire line shifts, rats were exposed to whole-body eucalyptus smoke over the course of two weeks. Exposure occurred for 4 consecutive days on week 1, followed by a 3-day break, and 3 subsequent days of smoke exposure on week 2. An n = 24 rats were randomized by weight into three groups based on body weight (n = 8 / group): filtered air, low smoke, and high smoke concentrations. The smoke exposures were set to a target CO of 10 ppm for the low smoke group and 20 ppm for the high smoke group. These concentrations bracket the National Wildfire Coordinating Group’s recommended exposure limit of 15 ppm, which is lower than the 35 ppm limit set by the National Institute for Occupational Safety and Health. Further, these concentrations were selected to avoid respiratory suppression and the potential for anti-inflammatory signaling from high concentrations of CO in the rodent. Eucalyptus smoke was generated in a quartz-tube furnace system set to a smoldering condition (~ 500°C) with a primary air flow at ~ 2 L/min. Additional details on the design of the tube furnace system can be found in Kim, et al. Generated smoke was diluted using a secondary air flow to maintain our target CO concentrations and was subsequently delivered to a whole-body inhalation chamber. CO and CO2 were continuously monitored using a nondispersive infrared analyzer (602 CO/CO2; CAI, Inc.) and nitrogen oxides were monitored using a chemiluminescent analyzer (42i NO/NO2/NOx; ThermoScientific). Environmental conditions in the chambers were measured in real-time using Dasylab Software (v.13.0; National Instruments). Particle size distribution within the exposure chamber was measured for 5 minutes at the mid-point of the exposure using an electrical low-pressure impactor (ELPI model 97-2E; Dekati Ltd.) and analyzed for surface area-weighted distributions (ELPIvi v.3.0; Dekati Ltd.). Final PM concentrations following each exposure was determined by gravimetrically weighing a glass-fiber filtered placed in the exhaust line of the quartz-tube furnace system before and after the combustion. Due to staffing limitations, VOCs were not able to be characterized for the specific exposures within this study. However, the chemicals found in eucalyptus smoke and concentration ranges generated in our tube furnace system can be found in Kim, et al. (36) and Kim, et al. Attributable to the length of the quartz tube used in our system, each daily exposure was limited to 1 hour.

Treatment ID:

TR002836

Treatment Summary:

Samples were received frozen in aliquots of lung tissue. Prior to analysis, samples were thawed and prepared for HRM analysis using the standard protocols described in the Sample Preparation section. Eucalyptus was selected as the biomass of interest due to its prevalence and likeness of chaparral ecosystems present in Southern California and Australia, areas that have experienced growing severity of wildland fires in recent years. To mimic the deployment of common fire line shifts, rats were exposed to whole-body eucalyptus smoke over the course of two weeks. Exposure occurred for 4 consecutive days on week 1, followed by a 3-day break, and 3 subsequent days of smoke exposure on week 2. An n = 24 rats were randomized by weight into three groups based on body weight (n = 8 / group): filtered air, low smoke, and high smoke concentrations. The smoke exposures were set to a target CO of 10 ppm for the low smoke group and 20 ppm for the high smoke group. These concentrations bracket the National Wildfire Coordinating Group’s recommended exposure limit of 15 ppm, which is lower than the 35 ppm limit set by the National Institute for Occupational Safety and Health. Further, these concentrations were selected to avoid respiratory suppression and the potential for anti-inflammatory signaling from high concentrations of CO in the rodent. Eucalyptus smoke was generated in a quartz-tube furnace system set to a smoldering condition (~ 500°C) with a primary air flow at ~ 2 L/min. Additional details on the design of the tube furnace system can be found in Kim, et al. Generated smoke was diluted using a secondary air flow to maintain our target CO concentrations and was subsequently delivered to a whole-body inhalation chamber. CO and CO2 were continuously monitored using a nondispersive infrared analyzer (602 CO/CO2; CAI, Inc.) and nitrogen oxides were monitored using a chemiluminescent analyzer (42i NO/NO2/NOx; ThermoScientific). Environmental conditions in the chambers were measured in real-time using Dasylab Software (v.13.0; National Instruments). Particle size distribution within the exposure chamber was measured for 5 minutes at the mid-point of the exposure using an electrical low-pressure impactor (ELPI model 97-2E; Dekati Ltd.) and analyzed for surface area-weighted distributions (ELPIvi v.3.0; Dekati Ltd.). Final PM concentrations following each exposure was determined by gravimetrically weighing a glass-fiber filtered placed in the exhaust line of the quartz-tube furnace system before and after the combustion. Due to staffing limitations, VOCs were not able to be characterized for the specific exposures within this study. However, the chemicals found in eucalyptus smoke and concentration ranges generated in our tube furnace system can be found in Kim, et al. (36) and Kim, et al. Attributable to the length of the quartz tube used in our system, each daily exposure was limited to 1 hour.

Sample Preparation:

Sampleprep ID:	SP002833
Sampleprep Summary:	Samples were prepared for metabolomics analysis using established methods(Johnson et al. (2010). Analyst; Go et al. (2015). Tox Sci). Prior to analysis, lung samples were removed from storage at -80 degrees C and thawed on ice. The 20-30mg of each lung tissue samples was then mixed with ice cold LC-MS grade acetonitrile: water mixture (Sigma-Aldrich; 2:1 ration; 15uL per mg tissue) which contains 2.5uL per 100uL of internal standard solution with eight stable isotopic chemicals selected to cover a range of chemical properties. Samples are then sonicated on ice to ensure metabolite extraction as previously described (Chandler et al (2016) AJ Physiology; Hu et al. (2019) AJ Pathology). Following sonication, tissue lysates are then equilibrated for 30 mins on ice, upon which precipitated proteins are removed by centrifuge (16.1xg at 4C for 10 mins). The resulting supernatant containing metabolite extract (100uL) is removed, added to a low volume autosampler vial and maintained at 4C until analysis (<22h).
Sampleprep Protocol Filename:	EmoryUniversity_HRM_SamplePreparation_tissue_062016_v1.pdf
Processing Storage Conditions:	-80℃
Extract Storage:	-80℃

Combined analysis:

Analysis ID	AN004411	AN004412
Analysis type	MS	MS
Chromatography type	HILIC	Reversed phase
Chromatography system	Thermo Dionex Ultimate 3000	Thermo Dionex Ultimate 3000
Column	Waters XBridge BEH Amide (50 x 2.1mm,2.5um)	Thermo Higgins C18 (50 x 2.1mm,3um)
MS Type	ESI	ESI
MS instrument type	Orbitrap	Orbitrap
MS instrument name	Thermo Q Exactive HF hybrid Orbitrap	Thermo Q Exactive HF hybrid Orbitrap
Ion Mode	POSITIVE	NEGATIVE
Units	peak area	peak area

Chromatography:

Chromatography ID:	CH003310
Chromatography Summary:	The HILIC column is operated parallel to reverse phase column for simultaneous analytical separation and column flushing through the use of a dual head HPLC pump equipped with 10-port and 6-port switching valves. During operation of HILIC separation method, the MS is operated in positive ion mode and 10 microliters of sample is injected onto the HILIC column while the reverse phase column is flushing with wash solution. Flow rate is maintained at 0.35 mL/min until 1.5 min, increased to 0.4 mL/min at 4 min and held for 1 min. Solvent A is 100% LC-MS grade water, solvent B is 100% LC-MS grade acetonitrile and solvent C is 2% formic acid (v/v) in LC-MS grade water. Initial mobile phase conditions are 22.5% A, 75% B, 2.5% C hold for 1.5 min, with linear gradient to 77.5% A, 20% B, 2.5% C at 4 min, hold for 1 min, resulting in a total analytical run time of 5 min. During the flushing phase (reverse phase analytical separation), the HILIC column is equilibrated with a wash solution of 77.5% A, 20% B, 2.5% C.
Methods Filename:	EmoryUniversity_HRM-QEHF_chromatography_5min_092017_v1.pdf
Chromatography Comments:	Triplicate injections for each chromatography mode
Instrument Name:	Thermo Dionex Ultimate 3000
Column Name:	Waters XBridge BEH Amide (50 x 2.1mm,2.5um)
Column Temperature:	60
Flow Gradient:	A= water, B= acetonitrile, C= 2% formic acid in water; 22.5% A, 75% B, 2.5% C hold for 1.5 min, linear gradient to 77.5% A, 20% B, 2.5% C at 4 min, hold for 1 min
Flow Rate:	0.35 mL/min for 1.5 min; linear increase to 0.4 mL/min at 4 min, hold for 1 min
Solvent A:	100% water
Solvent B:	100% acetonitrile
Chromatography Type:	HILIC
Solvent C:	100% water; 2% formic acid

Chromatography ID:	CH003311
Chromatography Summary:	The C18 column is operated parallel to the HILIC column for simultaneous analytical separation and column flushing through the use of a dual head HPLC pump equipped with 10-port and 6- port switching valves. During operation of the C18 method, the MS is operated in negative ion mode and 10 ÃŽÂ¼L of sample is injected onto the C18 column while the HILIC column is flushing with wash solution. Flow rate is maintained at 0.4 mL/min until 1.5 min, increased to 0.5mL/min at 2 min and held for 3 min. Solvent A is 100% LC-MS grade water, solvent B is 100% LC-MS grade acetonitrile and solvent C is 10mM ammonium acetate in LC-MS grade water. Initial mobile phase conditions are 60% A, 35% B, 5% C hold for 0.5 min, with linear gradient to 0% A, 95% B, 5% C at 1.5 min, hold for 3.5 min, resulting in a total analytical run time of 5 min. During the flushing phase (HILIC analytical separation), the C18 column is equilibrated with a wash solution of 0% A, 95% B, 5% C until 2.5 min, followed by an equilibration solution of 60% A, 35% B, 5% C for 2.5 min.
Methods Filename:	EmoryUniversity_HRM-QEHF_chromatography_5min_092017_v1.pdf
Chromatography Comments:	Triplicate injections for each chromatography mode
Instrument Name:	Thermo Dionex Ultimate 3000
Column Name:	Thermo Higgins C18 (50 x 2.1mm,3um)
Column Temperature:	60
Flow Gradient:	A= water, B= acetontrile, C= 10mM ammonium acetate in water; 60% A, 35% B, 5% C hold for 0.5 min, linear gradient to 0% A, 95% B, 5% C at 1.5 min, hold for 3 min
Flow Rate:	0.4 mL/min for 1.5 min; linear increase to 0.5 mL/min at 2 min held for 3 min
Solvent A:	100% water
Solvent B:	100% acetonitrile
Chromatography Type:	Reversed phase
Solvent C:	100% water; 10mM ammonium acetate

MS:

MS ID:	MS004158
Analysis ID:	AN004411
Instrument Name:	Thermo Q Exactive HF hybrid Orbitrap
Instrument Type:	Orbitrap
MS Type:	ESI
MS Comments:	Xcalibur 3.0.63
Ion Mode:	POSITIVE
Capillary Temperature:	250C
Collision Gas:	N2
Dry Gas Flow:	45
Dry Gas Temp:	150C
Mass Accuracy:	< 3ppm
Spray Voltage:	3500
Activation Parameter:	5.00E+05
Activation Time:	118ms
Interface Voltage:	S-Lens RF level= 55
Analysis Protocol File:	EmoryUniversity_HRM_DataAnalysis-MS_092017_v1.pdf

MS ID:	MS004159
Analysis ID:	AN004412
Instrument Name:	Thermo Q Exactive HF hybrid Orbitrap
Instrument Type:	Orbitrap
MS Type:	ESI
MS Comments:	Xcalibur 3.0.63
Ion Mode:	NEGATIVE
Capillary Temperature:	250C
Collision Gas:	N2
Dry Gas Flow:	45
Dry Gas Temp:	150C
Mass Accuracy:	< 3ppm
Spray Voltage:	-4000
Activation Parameter:	5.00E+05
Activation Time:	118ms
Interface Voltage:	S-Lens RF level= 55
Analysis Protocol File:	EmoryUniversity_HRM_DataAnalysis-MS_092017_v1.pdf