Summary of Study ST000515
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 PR000384. The data can be accessed directly via it's Project DOI: 10.21228/M8DP41 This work is supported by NIH grant, U2C- DK119886.
See: https://www.metabolomicsworkbench.org/about/howtocite.php
Study ID | ST000515 |
Study Title | Metabolomics of longitudinal plasma samples from Macaca mulatta infected with Plasmodium cynomolgi B strain. |
Study Type | Longitudinal parasite infection and treatment of multiple individuals |
Study Summary | ATTENTION: The dataset package associated with this study is out of date. Please refer to https://www.ebi.ac.uk/metabolights/MTBLS517 for the latest and final version of all files. Malaria-naive male rhesus macaques (Macaca mulatta), approximately three years of age, were inoculated intravenously with salivary gland sporozoites isolated at the Centers for Disease Control and Prevention from multiple Anopheles species (An. dirus, An. gambiae, and An. stephensi) and then profiled for parasitological, clinical, immunological, functional genomic, lipidomic, proteomic, and metabolomic measurements. The experiment was designed for 100 days, and pre- and post-100 day periods to prepare subjects and administer curative treatments respectively. The anti-malarial drug Artemether was subcuratively administered selectively to several subjects during the primary parasitemia to suppress clinical complications and to all animals for curative treatment of blood-stage infections to allow detection of relapses. One subject was euthanized during the 100-day experimental period due to clinical complications. The anti-malarial drugs Primaquine and Chloroquine were administered to all remaining subjects at the end of the study for curative treatment of the liver and blood-stage infections, respectively. Plasma samples were acquired every other day from capillary blood and during seven-time point collections of venous blood. Supplemental files, including a ReadMe with additional experimental details, all raw data, and analytical metadata, are provided as part of this submission. |
Institute | Emory University |
Department | School of Medicine, Vaccine Center at Yerkes |
Last Name | Galinski |
First Name | Mary |
Address | Emory University, 954 Gatewood Rd, Atlanta, GA 30329 |
mahpic@emory.edu | |
Phone | N/A |
Submit Date | 2016-11-23 |
Total Subjects | 5 |
Study Comments | Malaria Host Pathogen Interaction Center Experiment 04, 5 subjects 286 samples. The experimental design and protocols for this study were approved by the Emory University Institutional Animal Care and Use Committee (IACUC). These results are a product of a consortium of researchers known as the Malaria Host Pathogen Interaction Center (MaHPIC). For more information on the MaHPIC, please visit http://www.systemsbiology.emory.edu/ . Within the MaHPIC, these data were collected as part of 'Experiment 04' (E04). To access other publicly available results from E04 and other MaHPIC Experiments, including clinical results (specifics on drugs administered, diet, and veterinary interventions), and other omics, visit http://plasmodb.org/plasmo/mahpic.jsp . This page will be updated as datasets are released to the public. |
Raw Data Available | Yes |
Raw Data File Type(s) | raw(Thermo) |
Analysis Type Detail | LC-MS |
Release Date | 2017-07-10 |
Release Version | 1 |
Select appropriate tab below to view additional metadata details:
Project:
Project ID: | PR000384 |
Project DOI: | doi: 10.21228/M8DP41 |
Project Title: | The Malaria Host-Pathogen Interaction Center (MaHPIC) |
Project Type: | Systems Biology |
Project Summary: | The Malaria Host-Pathogen Interaction Center (MaHPIC) is a transdisciplinary malaria systems biology research program supported by an NIH/NIAID contract (# HHSN272201200031C; see http://www.systemsbiology.emory.edu/index.html). The MaHPIC generates many data types (e.g., metabolomics, functional genomics, lipidomics, proteomics, clinical, parasitological, immune response) and mathematical models, to iteratively test and develop hypotheses related to the complex host-parasite dynamics in the course of malaria in non-human primates, and metabolomics data via collaborations with investigators conducting clinical studies in malaria endemic countries, with the overarching goal of better understanding human disease, pathogenesis, and immunity. Curation and maintenance of all data and metadata are the responsibility of the MaHPIC: Mary Galinski mary.galinski@emory.edu (MaHPIC Program Director), Jessica Kissinger jkissinger@uga.edu (MaHPIC Co-Program Director), Alberto Moreno alberto.moreno@emory.edu (MaHPIC Co-Program Director), and Ebru Karpuzoglu ekarpuzoglu@emory.edu (MaHPIC Scientific Project Manager) |
Institute: | Emory University |
Department: | School of Medicine, Vaccine Center at Yerkes |
Last Name: | Galinski |
First Name: | Mary |
Address: | Emory University, 954 Gatewood Rd, Atlanta, GA 30329 |
Email: | mgalins@emory.edu |
Phone: | N/A |
Funding Source: | NIAID Contract: # HHSN272201200031C |
Subject:
Subject ID: | SU000537 |
Subject Type: | Animal |
Subject Species: | Macaca mulatta |
Taxonomy ID: | 9544 |
Age Or Age Range: | N/A| N/A| ~3years| ~3years| ~3years| ~3years| ~3years |
Weight Or Weight Range: | N/A| N/A| 6.05 kg| 6.05 kg| 6.05 kg| 6.05 kg| 6.05 kg |
Gender: | Male| Male| Male| Male| Male| Male| Male |
Subject Comments: | Transfusion Donor| Reference Animal| Experimental Subject|Experimental Subject| Experimental Subject| Experimental Subject| Experimental Subject |
Species Group: | Mammals |
Factors:
Subject type: Animal; Subject species: Macaca mulatta (Factor headings shown in green)
mb_sample_id | local_sample_id | Gender | Prior Infection | Days since Inoculation |
---|---|---|---|---|
SA026760 | 1975092 | Male | None | -1 |
SA026761 | 1975086 | Male | None | -1 |
SA026762 | 1975080 | Male | None | -1 |
SA026763 | 1975125 | Male | None | -1 |
SA026764 | 1975020 | Male | None | -1 |
SA026765 | 1979579 | Male | None | 1 |
SA026766 | 1979551 | Male | None | 1 |
SA026767 | 1979561 | Male | None | 1 |
SA026768 | 1979546 | Male | None | 1 |
SA026769 | 1979556 | Male | None | 1 |
SA026770 | 2058598 | Male | None | 104 |
SA026771 | 2058603 | Male | None | 104 |
SA026772 | 2058593 | Male | None | 104 |
SA026773 | 2058588 | Male | None | 104 |
SA026774 | 2060792 | Male | None | 106 |
SA026775 | 2060782 | Male | None | 106 |
SA026776 | 2060797 | Male | None | 106 |
SA026777 | 2060787 | Male | None | 106 |
SA026778 | 1986957 | Male | None | 11 |
SA026779 | 1986947 | Male | None | 11 |
SA026780 | 1986942 | Male | None | 11 |
SA026781 | 1986962 | Male | None | 11 |
SA026782 | 1986952 | Male | None | 11 |
SA026783 | 1988270 | Male | None | 13 |
SA026784 | 1988255 | Male | None | 13 |
SA026785 | 1988260 | Male | None | 13 |
SA026786 | 1988250 | Male | None | 13 |
SA026787 | 1988265 | Male | None | 13 |
SA026788 | 1990896 | Male | None | 15 |
SA026789 | 1990901 | Male | None | 15 |
SA026790 | 1990911 | Male | None | 15 |
SA026791 | 1990916 | Male | None | 15 |
SA026792 | 1990906 | Male | None | 15 |
SA026793 | 1991821 | Male | None | 17 |
SA026794 | 1991841 | Male | None | 17 |
SA026795 | 1991836 | Male | None | 17 |
SA026796 | 1991831 | Male | None | 17 |
SA026797 | 1991826 | Male | None | 17 |
SA026798 | 1991880 | Male | None | 18 |
SA026799 | 1993046 | Male | None | 19 |
SA026800 | 1993026 | Male | None | 19 |
SA026801 | 1993036 | Male | None | 19 |
SA026802 | 1993031 | Male | None | 19 |
SA026803 | 1993041 | Male | None | 19 |
SA026804 | 1995832 | Male | None | 20 |
SA026805 | 1995844 | Male | None | 20 |
SA026806 | 1995910 | Male | None | 21 |
SA026807 | 1996024 | Male | None | 21 |
SA026808 | 1996019 | Male | None | 21 |
SA026809 | 1996029 | Male | None | 21 |
SA026810 | 1995922 | Male | None | 21 |
SA026811 | 1998663 | Male | None | 23 |
SA026812 | 1998668 | Male | None | 23 |
SA026813 | 1998957 | Male | None | 23 |
SA026814 | 1998658 | Male | None | 23 |
SA026815 | 1998648 | Male | None | 23 |
SA026816 | 1999114 | Male | None | 25 |
SA026817 | 1999129 | Male | None | 25 |
SA026818 | 1999119 | Male | None | 25 |
SA026819 | 1999124 | Male | None | 25 |
SA026820 | 1999443 | Male | None | 26 |
SA026821 | 1999442 | Male | None | 26 |
SA026822 | 1999441 | Male | None | 26 |
SA026823 | 1999440 | Male | None | 26 |
SA026824 | 2003641 | Male | None | 27 |
SA026825 | 2003636 | Male | None | 27 |
SA026826 | 2003626 | Male | None | 27 |
SA026827 | 2003631 | Male | None | 27 |
SA026828 | 2005641 | Male | None | 29 |
SA026829 | 2005631 | Male | None | 29 |
SA026830 | 2005646 | Male | None | 29 |
SA026831 | 2005636 | Male | None | 29 |
SA026832 | 1981033 | Male | None | 3 |
SA026833 | 1981038 | Male | None | 3 |
SA026834 | 1981028 | Male | None | 3 |
SA026835 | 1981043 | Male | None | 3 |
SA026836 | 1981023 | Male | None | 3 |
SA026837 | 2005900 | Male | None | 31 |
SA026838 | 2005895 | Male | None | 31 |
SA026839 | 2005905 | Male | None | 31 |
SA026840 | 2005890 | Male | None | 31 |
SA026841 | 2006389 | Male | None | 33 |
SA026842 | 2006384 | Male | None | 33 |
SA026843 | 2006379 | Male | None | 33 |
SA026844 | 2006374 | Male | None | 33 |
SA026845 | 2008343 | Male | None | 35 |
SA026846 | 2008338 | Male | None | 35 |
SA026847 | 2008333 | Male | None | 35 |
SA026848 | 2008328 | Male | None | 35 |
SA026849 | 2010130 | Male | None | 37 |
SA026850 | 2010125 | Male | None | 37 |
SA026851 | 2010135 | Male | None | 37 |
SA026852 | 2010120 | Male | None | 37 |
SA026853 | 2010684 | Male | None | 39 |
SA026854 | 2010679 | Male | None | 39 |
SA026855 | 2010674 | Male | None | 39 |
SA026856 | 2010689 | Male | None | 39 |
SA026857 | 2012632 | Male | None | 41 |
SA026858 | 2012642 | Male | None | 41 |
SA026859 | 2012627 | Male | None | 41 |
Collection:
Collection ID: | CO000531 |
Collection Summary: | Every Other Day Collection|Time Point 1 - Baseline: Uninfected control for each NHP.|Time Point 2 - Peak of infection: Peak of infection determined by clinical and parasitological assessment for each NHP. The time point is intended to characterize the host immune response and capture multi-omics data during the peak of parasitemias when the NHP is experiencing clinical signs of disease that may be severe or non-severe. NHPs were monitored, and clinical interventions were performed as necessary. Otherwise, NHPs self-resolved infection.|Time Point 3 - Post-Peak of Infection: Observations 7 days after peak infection.|Time Point 4 - 1st Relapse Peak of Infection: This time point tested expectations of a mild drop in hemoglobin levels and low parasitemias relative to peak infection arising from activation of hypnozoites. |Time Point 5 - Post-Peak of 1st Relapse Infection: Inter-relapse interval. |Time Point 6 - 2nd Relapse Peak of Infection: Same goal as time point 4 for 2nd relapse.|Time Point 7 - Post-Peak of 2nd Relapse Infection: Observations on NHP response after a second relapse infection. |
Sample Type: | Whole blood |
Collection Method: | Ear Prick|Intravenous|Intravenous|Intravenous|Intravenous|Intravenous|Intravenous|Intravenous |
Collection Time: | Every Other Day|Once|Once|Once|Once|Once|Once|Once |
Blood Serum Or Plasma: | Plasma |
Treatment:
Treatment ID: | TR000551 |
Treatment Summary: | Plasmodium Cynomolgi Strain B Sporozoites Inoculation |
Treatment: | Biotic |
Treatment Route: | Injection |
Sample Preparation:
Sampleprep ID: | SP000544 |
Sampleprep Summary: | aliquots of 65ul sample were mixed with 130ul acetonitrile and 3.25ul internal standard. Keep on ice and vortex every 15 minutes. Centrifuge for 10 minutes at 13.2rpm and 4C. Using a pipette, 130ul of supernatant was removed and placed into autosampler vials for the mass spectrometer. |
Sampleprep Protocol Filename: | Metab_Sample_Preparation_Plasma_serum_v1_May_17_2013.docx E4_E3_E18_E23_E24_E25_MalariaCore_Metabolomics_SOP_v1_6October2016.docx |
Processing Method: | Precipitation of protein, centrifuge, and remove supernatant |
Processing Storage Conditions: | on ice |
Extraction Method: | 1:2 sample:acetonitrile |
Extract Storage: | Pipette supernatant into autosampler vials for mass spectrometer |
Sample Spiking: | C18 standards: Caffeine and Diethyl-toluamide. Stable isotopes: [13C6]-D-glucose, [15N]-indole, [1,2-13C2]-palmitic acid, [15N,13C5]-L-methionine, [2-15N]-L-lysine dihydrochloride, [15N]-choline chloride, [13C5]-L-glutamic acid, [13C7]-benzoic acid, [15N]-L-tyrosine, [15N2]-uracil, [3,4-13C2]-cholesterol, [3,3-13C2]-cystine, [trimethyl-13C3]-caffeine, [U-13C5, U-15N2]-L-glutamine. |
Combined analysis:
Analysis ID | AN000788 | AN000789 |
---|---|---|
Analysis type | MS | MS |
Chromatography type | Reversed phase | Reversed phase |
Chromatography system | Thermo QExactive | Thermo QExactive |
Column | Higgins C18 (100 x 2.1mm,5um) | Higgins C18 (100 x 2.1mm,5um) |
MS Type | ESI | ESI |
MS instrument type | Orbitrap | Orbitrap |
MS instrument name | Thermo Q Exactive Orbitrap | Thermo Q Exactive Orbitrap |
Ion Mode | POSITIVE | NEGATIVE |
Units | peak intensity | peak intensity |
Chromatography:
Chromatography ID: | CH000565 |
Chromatography Summary: | untargeted chromatography (C18 column) |
Methods Filename: | Metab_Orbitrap_Setup_v1_May_17_2013.docx |
Chromatography Comments: | Thermo QExactive coupled to CTC PAL HTC Accela1-TMO autosampler |
Instrument Name: | Thermo QExactive |
Column Name: | Higgins C18 (100 x 2.1mm,5um) |
Column Pressure: | 200 Bar (max) |
Column Temperature: | 30 |
Flow Gradient: | A%: 0-10mins = 5%; B%: 0-2mins = 35%, 2-7mins = gradient to 95%, 7-10mins = 95%; C%: 0-2mins = 60%, 2-7mins = gradient to 0%, 7-10mins = 0% |
Flow Rate: | 0-2mins = 350 μL/min, 2-7mins = gradient to 400 μL/min, 7-10mins = 400 μL/min |
Injection Temperature: | 4C |
Internal Standard: | Caffeine, Diethyl-toluamide |
Internal Standard Mt: | 1.5 min; 6-6.6 min |
Sample Injection: | 10μL |
Sampling Cone: | ESI: HESI probe with S-lens combination |
Solvent A: | 100% water; 0.2% formic acid |
Solvent B: | 100% acetonitrile |
Analytical Time: | 10 minutes |
Capillary Voltage: | 4.6 kV |
Oven Temperature: | 45C |
Running Voltage: | 4.6 kV |
Weak Wash Solvent Name: | H20 with 10% methanol |
Weak Wash Volume: | 20μL |
Chromatography Type: | Reversed phase |
MS:
MS ID: | MS000695 |
Analysis ID: | AN000788 |
Instrument Name: | Thermo Q Exactive Orbitrap |
Instrument Type: | Orbitrap |
MS Type: | ESI |
Ion Mode: | POSITIVE |
Capillary Temperature: | 250 |
Capillary Voltage: | 4.45 |
Collision Gas: | N2 |
Gas Pressure: | 50 PSI |
Ionization: | electrospray ionization |
Mass Accuracy: | 5 PPM |
Source Temperature: | 48 |
Spray Voltage: | 3.5 |
Atom Gun Current: | 1000000 |
Dataformat: | .raw,.cdf |
Probe Tip: | HESI |
Resolution Setting: | 120,000 |
Scan Range Moverz: | 85-1275 |
Analysis Protocol File: | Metabolomics_Core_Data_Analysis.docx |
MS ID: | MS000696 |
Analysis ID: | AN000789 |
Instrument Name: | Thermo Q Exactive Orbitrap |
Instrument Type: | Orbitrap |
MS Type: | ESI |
Ion Mode: | NEGATIVE |
Capillary Temperature: | 250 |
Capillary Voltage: | 4.45 |
Collision Gas: | N2 |
Gas Pressure: | 50 PSI |
Ionization: | electrospray ionization |
Mass Accuracy: | 5 PPM |
Source Temperature: | 48 |
Spray Voltage: | 3.5 |
Atom Gun Current: | 1000000 |
Dataformat: | .raw,.cdf |
Probe Tip: | HESI |
Resolution Setting: | 120,000 |
Scan Range Moverz: | 85-1275 |
Analysis Protocol File: | Metabolomics_Core_Data_Analysis.docx |