Summary of Study ST003154
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 PR001960. The data can be accessed directly via it's Project DOI: 10.21228/M8CF0S 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 | ST003154 |
| Study Title | Nucleotide metabolism of tumor interstitial fluid in one murine model of pancreatic cancer |
| Study Summary | The experiment focus on the nucleotide metabolism of tumor interstitial fluid in one murine model of pancreatic cancer. Briefly, KPC FC1245 cells were genetically engineered using doxycycline inducible CRISPR/Cas9 system platform to target specifically cytidine deaminase (sgCda). sgCda and the control sgNT were then orthotopically injected in the head of the pancreas of 8-10 weeks old C57BL/6J female mice. When the tumor weight reached approximately 0.2-0.4g, mice were sacrificed and tumor interstitial fluid was collected as reported in the Collection section of this study. Standard curves for glutamine, cytidine, uridine, glucose, UTP and UDP were prepared and extracted along with the interstitial fluid samples. The concentrations of glutamine, cytidine, uridine, UDP and UTP were measured by LC-MS, and glucose was measured by GC-MS. A decrease in uridine content, and accordingly in UDP and UTP, and a concomitant accumulation of cytidine was observed in sgCda tumors. On the other hand, no differences were observed in glucose and glutamine abundance. |
| Institute | VIB-KU Leuven Center for Cancer Biology |
| Last Name | Mazzone |
| First Name | Massimiliano |
| Address | Herestraat 49, box 912, Leuven, Flemish Brabant, 3000, Belgium |
| massimiliano.mazzone@kuleuven.be | |
| Phone | +32-16-37.32.13 |
| Submit Date | 2024-03-12 |
| Raw Data Available | Yes |
| Raw Data File Type(s) | mzML |
| Analysis Type Detail | GC/LC-MS |
| Release Date | 2024-04-05 |
| Release Version | 1 |
Select appropriate tab below to view additional metadata details:
Project:
| Project ID: | PR001960 |
| Project DOI: | doi: 10.21228/M8CF0S |
| Project Title: | Nucleotide metabolism of tumor interstitial fluid in one murine model of pancreatic cancer |
| Project Type: | Nucleotide metabolism in murine pancreatic tumors |
| Project Summary: | The experiment focus on the nucleotide metabolism of tumor interstitial fluid in one murine model of pancreatic cancer. Briefly, KPC FC1245 cells were genetically engineered using doxycycline inducible CRISPR/Cas9 system platform to target specifically cytidine deaminase (sgCda). sgCda and the control sgNT were then orthotopically injected in the head of the pancreas of 8-10 weeks old C57BL/6J female mice. When the tumor weight reached approximately 0.2-0.4g, mice were sacrificed and tumor interstitial fluid was collected as reported in the Collection section of this study. Standard curves for glutamine, cytidine, uridine, glucose, UTP and UDP were prepared and extracted along with the interstitial fluid samples. The concentrations of glutamine, cytidine, uridine, UDP and UTP were measured by LC-MS, and glucose was measured by GC-MS. A decrease in uridine content, and accordingly in UDP and UTP, and a concomitant accumulation of cytidine was observed in sgCda tumors. On the other hand, no differences were observed in glucose and glutamine abundance. |
| Institute: | VIB Center for Cancer Biology |
| Last Name: | Mazzone |
| First Name: | Massimiliano |
| Address: | Herestraat 49, box 912, Leuven, Flemish Brabant, 3000, Belgium |
| Email: | massimiliano.mazzone@kuleuven.be |
| Phone: | +32-16-37.32.13 |
Subject:
| Subject ID: | SU003271 |
| Subject Type: | Mammal |
| Subject Species: | Mus musculus |
| Taxonomy ID: | 10090 |
| Genotype Strain: | C57BL/6J |
Factors:
Subject type: Mammal; Subject species: Mus musculus (Factor headings shown in green)
| mb_sample_id | local_sample_id | Sample source | Genotype |
|---|---|---|---|
| SA341014 | STD7_b | Calibration Curve | N/A |
| SA341015 | STD6_b | Calibration Curve | N/A |
| SA341016 | STD8_b | Calibration Curve | N/A |
| SA341017 | STD10_b | Calibration Curve | N/A |
| SA341018 | STD11_b | Calibration Curve | N/A |
| SA341019 | STD5_b | Calibration Curve | N/A |
| SA341020 | STD9_b | Calibration Curve | N/A |
| SA341021 | STD4_b | Calibration Curve | N/A |
| SA341022 | STD12_a | Calibration Curve | N/A |
| SA341023 | STD11_a | Calibration Curve | N/A |
| SA341024 | STD13_a | Calibration Curve | N/A |
| SA341025 | STD14_a | Calibration Curve | N/A |
| SA341026 | STD15_a | Calibration Curve | N/A |
| SA341027 | STD12_b | Calibration Curve | N/A |
| SA341028 | STD13_b | Calibration Curve | N/A |
| SA341029 | STD9_c | Calibration Curve | N/A |
| SA341030 | STD8_c | Calibration Curve | N/A |
| SA341031 | STD10_c | Calibration Curve | N/A |
| SA341032 | STD11_c | Calibration Curve | N/A |
| SA341033 | STD12_c | Calibration Curve | N/A |
| SA341034 | STD7_c | Calibration Curve | N/A |
| SA341035 | STD6_c | Calibration Curve | N/A |
| SA341036 | STD2_c | Calibration Curve | N/A |
| SA341037 | STD14_b | Calibration Curve | N/A |
| SA341038 | STD3_c | Calibration Curve | N/A |
| SA341039 | STD4_c | Calibration Curve | N/A |
| SA341040 | STD5_c | Calibration Curve | N/A |
| SA341041 | STD10_a | Calibration Curve | N/A |
| SA341042 | STD3_b | Calibration Curve | N/A |
| SA341043 | STD4_a | Calibration Curve | N/A |
| SA341044 | STD2_a | Calibration Curve | N/A |
| SA341045 | STD9_a | Calibration Curve | N/A |
| SA341046 | STD5_a | Calibration Curve | N/A |
| SA341047 | STD3_a | Calibration Curve | N/A |
| SA341048 | STD7_a | Calibration Curve | N/A |
| SA341049 | STD8_a | Calibration Curve | N/A |
| SA341050 | STD6_a | Calibration Curve | N/A |
| SA341051 | TIF12 | Pancreatic tumor interstitial fluid | sgCda |
| SA341052 | TIF7 | Pancreatic tumor interstitial fluid | sgCda |
| SA341053 | TIF11_GC | Pancreatic tumor interstitial fluid | sgCda |
| SA341054 | TIF6_GC | Pancreatic tumor interstitial fluid | sgCda |
| SA341055 | TIF6 | Pancreatic tumor interstitial fluid | sgCda |
| SA341056 | TIF7_GC | Pancreatic tumor interstitial fluid | sgCda |
| SA341057 | TIF5_GC | Pancreatic tumor interstitial fluid | sgCda |
| SA341058 | TIF19 | Pancreatic tumor interstitial fluid | sgCda |
| SA341059 | TIF20 | Pancreatic tumor interstitial fluid | sgCda |
| SA341060 | TIF21 | Pancreatic tumor interstitial fluid | sgCda |
| SA341061 | TIF13_GC | Pancreatic tumor interstitial fluid | sgCda |
| SA341062 | TIF11 | Pancreatic tumor interstitial fluid | sgCda |
| SA341063 | TIF18 | Pancreatic tumor interstitial fluid | sgCda |
| SA341064 | TIF13 | Pancreatic tumor interstitial fluid | sgCda |
| SA341065 | TIF12_GC | Pancreatic tumor interstitial fluid | sgCda |
| SA341066 | TIF5 | Pancreatic tumor interstitial fluid | sgCda |
| SA341067 | TIF4 | Pancreatic tumor interstitial fluid | sgNT |
| SA341068 | TIF2 | Pancreatic tumor interstitial fluid | sgNT |
| SA341069 | TIF3 | Pancreatic tumor interstitial fluid | sgNT |
| SA341070 | TIF8 | Pancreatic tumor interstitial fluid | sgNT |
| SA341071 | TIF9 | Pancreatic tumor interstitial fluid | sgNT |
| SA341072 | TIF10 | Pancreatic tumor interstitial fluid | sgNT |
| SA341073 | TIF4_GC | Pancreatic tumor interstitial fluid | sgNT |
| SA341074 | TIF15 | Pancreatic tumor interstitial fluid | sgNT |
| SA341075 | TIF16 | Pancreatic tumor interstitial fluid | sgNT |
| SA341076 | TIF17 | Pancreatic tumor interstitial fluid | sgNT |
| SA341077 | TIF1 | Pancreatic tumor interstitial fluid | sgNT |
| SA341078 | TIF14 | Pancreatic tumor interstitial fluid | sgNT |
| SA341079 | TIF1_GC | Pancreatic tumor interstitial fluid | sgNT |
| SA341080 | TIF9_GC | Pancreatic tumor interstitial fluid | sgNT |
| SA341081 | TIF8_GC | Pancreatic tumor interstitial fluid | sgNT |
| SA341082 | TIF3_GC | Pancreatic tumor interstitial fluid | sgNT |
| SA341083 | TIF2_GC | Pancreatic tumor interstitial fluid | sgNT |
| SA341084 | TIF10_GC | Pancreatic tumor interstitial fluid | sgNT |
| Showing results 1 to 71 of 71 |
Collection:
| Collection ID: | CO003264 |
| Collection Summary: | 8-10 weeks old C57BL/6J female mice were euthanized with 75 µl of a 60 mg ml-1 Dolethal solution (pentobarbital sodium, Vetoquinol). Subsequently, sgNT and sgCda primary tumors were collected by surgical resection, washed with blood bank saline and dried from liquid excess. Tissues were then placed in a home-made filtered centrifugation tube supplemented with a 20 µm nylon mesh filter (Repligen) and centrifuged at 400 x g at 4 °C for 10 minutes. Between 1-14 µl of tumor interstitial fluid were collected and stored on dry ice. Interstitial fluid volume was used to determine the metabolites concentration measured by mass spectrometry. |
| Sample Type: | Interstitial fluid |
Treatment:
| Treatment ID: | TR003280 |
| Treatment Summary: | KPC FC1245 cells were genetically engineered using doxycycline inducible CRISPR/Cas9 system platform to target specifically cytidine deaminase (sgCda). sgCda and the control sgNT were then orthotopically injected in the head of the pancreas of 8-10 weeks old C57BL/6J female mice. When the tumor weight reached approximately 0.2-0.4g, mice were sacrificed and tumor interstitial fluid was collected |
Sample Preparation:
| Sampleprep ID: | SP003278 |
| Sampleprep Summary: | Standard curves for Glucose (Sigma-Aldrich, G7021), UDP (Sigma-Aldrich, 94330), UTP (Jena Bioscience, NU-1024S), cytidine (Sigma-Aldrich, C4654), uridine (Sigma-Aldrich, U3003) and glutamine (Gibco, 25030-34) were used to calculate the concentration of these metabolites in the samples. The standard curve was prepared with a dilution series starting from 5 mM Glucose and Glutamine, 1 mM Cytidine, Uridine, UDP and UTP. Specific dilutions are indicated in the Study Design table. Metabolites and calibration curves were extracted simultaneously by addition of 800 μl of MS-grade methanol-water buffer (MeOH:H2O, 5:3, v/v) containing the internal standards glutaric acid (5 μg ml-1, Sigma-Aldrich, G3407) and 13C6-Glucose (30 μg ml-1, Cambridge Isotope Laboratories, Inc., CLM-1396), followed by 500 μl of chloroform. Samples were then vortexed and centrifuged (4 °C for 10 min each). The polar (upper) phases were collected, divided into two equal parts for gas chromatography (GC) and liquid chromatography (LC) mass spectrometry analysis, and dried using a vacuum concentrator. The dried metabolite extracts were stored at -80 °C until analysis. |
Combined analysis:
| Analysis ID | AN005174 | AN005175 |
|---|---|---|
| Analysis type | MS | MS |
| Chromatography type | Reversed phase | GC |
| Chromatography system | Thermo Dionex Ultimate 3000 | Agilent 8860 |
| Column | Waters ACQUITY UPLC HSS T3 (100 x 2.1mm,1.8um) | Agilent J&W DB-35ms (30 m x 0.25 mm, 0.25 µm) |
| MS Type | ESI | EI |
| MS instrument type | Orbitrap | Single quadrupole |
| MS instrument name | Thermo Q Exactive Orbitrap | Agilent 5977C |
| Ion Mode | NEGATIVE | POSITIVE |
| Units | Ion Counts (AUC) | Ion Counts (AUC) |
Chromatography:
| Chromatography ID: | CH003914 |
| Instrument Name: | Thermo Dionex Ultimate 3000 |
| Column Name: | Waters ACQUITY UPLC HSS T3 (100 x 2.1mm,1.8um) |
| Column Temperature: | 40 |
| Flow Gradient: | The gradient started with 5% of solvent B and 95% solvent A and remained at 5% B until 2 min post injection. A linear gradient to 37% B was carried out until 7 min and increased to 41% until 14 min. Between 14 and 26 minutes the gradient increased to 95% of B and remained at 95% B for 4 minutes. At 30 min the gradient returned to 5% B. The chromatography was stopped at 40 min. |
| Flow Rate: | 0.25 mL/min |
| Solvent A: | 100% water; 10 mM tributyl-amine; 15 mM acetic acid |
| Solvent B: | 100% methanol |
| Chromatography Type: | Reversed phase |
| Chromatography ID: | CH003915 |
| Chromatography Summary: | Inlet Temperature: 270; Helium flow rate: 0.88 mL/min; The GC oven was kept at 100°C and for 1 min, increased with a gradient of 2.5°C min-1 to 105°C for 2 min, then ramped with a gradient of 15°C min-1 to 260°, and after that ramped with a gradient of 20°C min-1 up to 300°C for 5 min. |
| Instrument Name: | Agilent 8860 |
| Column Name: | Agilent J&W DB-35ms (30 m x 0.25 mm, 0.25 µm) |
| Column Temperature: | 100-300 |
| Flow Gradient: | N/A |
| Flow Rate: | N/A |
| Solvent A: | N/A |
| Solvent B: | N/A |
| Chromatography Type: | GC |
MS:
| MS ID: | MS004909 |
| Analysis ID: | AN005174 |
| Instrument Name: | Thermo Q Exactive Orbitrap |
| Instrument Type: | Orbitrap |
| MS Type: | ESI |
| MS Comments: | The MS was operated in negative full scan mode (m/z range: 70–900 and 400-500) using a spray voltage of 4.0 kV, capillary temperature of 350 °C, sheath gas at 50.0, auxiliary gas at 10.0. The AGC target was set at 3.0E6 using a resolution if 140000, with a maximum IT fill time of 512 ms. Data was collected and analyzed using the Xcalibur software (Thermo Scientific) considering a 5 ppm error. The chromatographic peaks for UDP, UTP, cytidine, uridine and glutamine were normalized to the internal standard glutaric acid. Tumor interstitial fluid samples were interpolated to the standard curve and normalized for tumor interstitial fluid volume in order to quantify metabolite concentration. |
| Ion Mode: | NEGATIVE |
| MS ID: | MS004910 |
| Analysis ID: | AN005175 |
| Instrument Name: | Agilent 5977C |
| Instrument Type: | Single quadrupole |
| MS Type: | EI |
| MS Comments: | 5977C quipped with EI inert source. Mass spectrometry was performed at 70 eV and a mass range of 150-650 atomic mass units was measured. The chromatographic peaks were extracted from raw chromatograms with a custom MATLAB Script. The chromatographic peaks for 12C-Glucose were normalized to the internal standard 13C6-glucose. Tumor interstitial fluid samples were interpolated to the standard curve and normalized for tumor interstitial fluid volume to quantify metabolite concentration. |
| Ion Mode: | POSITIVE |
