Skeletal muscle metabolomics and lipidomics, and whole-animal indirect calorimetry data from breast cancer patient-derived xenograft implanted mice.
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Study DescriptionFemale 8 week old NOD.Cg-<i>Prkdc</i><sup>scid</sup><i> Il2rg</i><sup>tm1Wjl</sup>/SzJ (NSG) mice were implanted with a HER2/neu+ overexpressing patient-derived xenograft (PDX) in the mammary fat pads. Mice were treated with pioglitazone or vehicle for 4 weeks and then collected.Metabolomics/Lipidomics dataThere are two folders, <b>Untargeted_</b><b>Metabolomics</b> and <b>Quantitative_</b><b>Lipidomics</b>. Each folder contains a sub folder with the raw .mzml files and an .xlsx files with the identified compounds.Whole-animal indirect calorimetryOne folder contains the raw indirect calorimetry files named <b>Indirect_Calorimetry</b>. Files are named by group, either as <i>P</i><i>ioglitazone_#.csv</i> or <i>V</i><i>ehicle_#.csv</i>.Supplementary DataAll additional supplementary data is described below.Supplementary Data 1. Untargeted metabolomics internal standard stability in QC samples.Supplementary Data 2. Cumulative mouse body weights in grams.Supplementary Data 3. Unnormalized gene expression counts for Pioglitazone and Vehicle groups.Supplementary Data 4. K-means cluster-5 gene list.Supplementary Data 5. Pioglitazone- vs. vehicle-treated all adjusted p-value significant pathways from GO Biological.Supplementary Data 6. Pioglitazone- vs. vehicle-treated all adjusted p-value significant pathways from GO Cellular.Supplementary Data 7. Pioglitazone- vs. vehicle-treated all adjusted p-value significant pathways from GO Molecular.Supplementary Data 8. Pioglitazone- vs. vehicle-treated all adjusted p-value significant pathways from KEGG.Supplementary Data 9. Pioglitazone- vs. vehicle-treated all adjusted p-value significant pathways from Reactome.Directory Tree.<br>├── Indirect_Calorimetry<br>│ ├── Pioglitazone_1.csv<br>│ ├── Pioglitazone_2.csv<br>│ ├── Pioglitazone_3.csv<br>│ ├── Pioglitazone_4.csv<br>│ ├── Pioglitazone_5.csv<br>│ ├── Vehicle_1.csv<br>│ ├── Vehicle_2.csv<br>│ ├── Vehicle_3.csv<br>│ └── Vehicle_4.csv<br>├── Quantitative_Lipidomics<br>│ ├── Lipidomics_mzml<br>│ │ ├── CON-1_N.mzML<br>│ │ ├── CON-1_P.mzML<br>│ │ ├── CON-2_N.mzML<br>│ │ ├── CON-2_P.mzML<br>│ │ ├── CON-3_N.mzML<br>│ │ ├── CON-3_P.mzML<br>│ │ ├── CON-4_N.mzML<br>│ │ ├── CON-4_P.mzML<br>│ │ ├── PIO-1_N.mzML<br>│ │ ├── PIO-1_P.mzML<br>│ │ ├── PIO-2_N.mzML<br>│ │ ├── PIO-2_P.mzML<br>│ │ ├── PIO-3_N.mzML<br>│ │ ├── PIO-3_P.mzML<br>│ │ ├── PIO-4_N.mzML<br>│ │ ├── PIO-4_P.mzML<br>│ │ ├── PIO-5_N.mzML<br>│ │ ├── PIO-5_P.mzML<br>│ │ ├── PIO-6_N.mzML<br>│ │ ├── PIO-6_P.mzML<br>│ │ ├── VEH-1_N.mzML<br>│ │ ├── VEH-1_P.mzML<br>│ │ ├── VEH-2_N.mzML<br>│ │ ├── VEH-2_P.mzML<br>│ │ ├── VEH-3_N.mzML<br>│ │ ├── VEH-3_P.mzML<br>│ │ ├── VEH-4_N.mzML<br>│ │ ├── VEH-4_P.mzML<br>│ │ ├── VEH-5_N.mzML<br>│ │ └── VEH-5_P.mzML<br>│ └── Quantitative_Lipidomics_All_Identified_Lipids.xlsx<br>├── Supplementary_Tables_and_Figures.pdf├── SupplementaryData1_Stability_of_Internal_Standards_in_QC_Samples.xlsx<br>├── SupplementaryData2_Animal_Body_Weights.xlsx<br>├── SupplementaryData3_Unnormalized_gene_expression_counts_for_Pioglitazone_and_Vehicle.tsv<br>├── SupplementaryData4_RNAseq_k_means_cluster5_enrichment.xlsx<br>├── SupplementaryData5_GO_Biological_Pathways_Pioglitazone_vs_Vehicle_all_Adj.p_significant.xlsx<br>├── SupplementaryData6_GO_Cellular_Pathways_Pioglitazone_vs_Vehicle_all_Adj.p_significant.xlsx<br>├── SupplementaryData7_GO_Molecular_Pathways_Pioglitazone_vs_Vehicle_all_Adj.p_significant.xlsx<br>├── SupplementaryData8_KEGG_Pathways_Pioglitazone_vs_Vehicle_all_Adj.p_significant.xlsx<br>├── SupplementaryData9_Curated_Reactome_Pathways_Pioglitazone_vs_Vehicle_all_Adj.p_significant.xlsx<br>└── Untargeted_Metabolomics<br> ├── Metabolomics_mzml<br> │ ├── CON-1_N.mzML<br> │ ├── CON-1_P.mzML<br> │ ├── CON-2_N.mzML<br> │ ├── CON-2_P.mzML<br> │ ├── CON-3_N.mzML<br> │ ├── CON-3_P.mzML<br> │ ├── CON-4_N.mzML<br> │ ├── CON-4_P.mzML<br> │ ├── PIO-1_N.mzML<br> │ ├── PIO-1_P.mzML<br> │ ├── PIO-2_N.mzML<br> │ ├── PIO-2_P.mzML<br> │ ├── PIO-3_N.mzML<br> │ ├── PIO-3_P.mzML<br> │ ├── PIO-4_N.mzML<br> │ ├── PIO-4_P.mzML<br> │ ├── PIO-5_N.mzML<br> │ ├── PIO-5_P.mzML<br> │ ├── PIO-6_N.mzML<br> │ ├── PIO-6_P.mzML<br> │ ├── VEH-1_N.mzML<br> │ ├── VEH-1_P.mzML<br> │ ├── VEH-2_N.mzML<br> │ ├── VEH-2_P.mzML<br> │ ├── VEH-3_N.mzML<br> │ ├── VEH-3_P.mzML<br> │ ├── VEH-4_N.mzML<br> │ ├── VEH-4_P.mzML<br> │ ├── VEH-5_N.mzML<br> │ └── VEH-5_P.mzML<br> └── Untargeted_Metabolomics_All_Detected_Metabolites.xlsx<br><br>
提供机构:
Clayton, Stuart; Meadows, Ethan; Rentz, Lauren; Geldenhuys, Werner J.; Pistilli, Emidio E; Mizener, Alan; Whetsell, Marcella
创建时间:
2024-10-28
