Summary of Study ST001025

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 PR000684. The data can be accessed directly via it's Project DOI: 10.21228/M8868G This work is supported by NIH grant, U2C- DK119886.

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Study IDST001025
Study TitleTCA Isotopmer metabolomics of H3K27M Cells grown in regular media, glutamine enriched regular media, and glucose encriched regular media (Part-III)
Study SummaryTCA Isotopmer metabolomics of H3K27M Cells grown in regular media, glutamine enriched regular media, and glucose encriched regular media. TCA isotopomers traced for 0, 12, or 24 hours were measured.
Institute
Mayo Clinic
Last NameDaniels
First NameDavid
Address200 First Street SW Rochester, MN 55905
Emaildaniels.david@mayo.edu
Phone507-284-2511
Submit Date2018-07-18
Analysis Type DetailGC-MS
Release Date2020-07-15
Release Version1
David Daniels David Daniels
https://dx.doi.org/10.21228/M8868G
ftp://www.metabolomicsworkbench.org/Studies/ application/zip

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Project:

Project ID:PR000684
Project DOI:doi: 10.21228/M8868G
Project Title:Mayo Pilot and Feasibility: H3K27M cells and glutamine metabolomics quatitation studies
Project Summary:In children, tumors affecting the brain and nervous system result in more cancer-related deaths than any other type of tumor. It is thus critical to identify new approaches for therapy. Among pediatric patients, one of the most devastating brain tumor types is Diffuse Intrinsic Pontine Gliomas (DIPG). Our understanding of this deadly disease has recently been advanced by important discoveries, including the discovery that the majority of DIPG tumors harbor the histone H3K27M mutation. This mutation results in global hypomethylation of H3K27 residues and is the pathological hallmark for this disease. Glutamine (Gln) addiction has been reported in many cancers including malignant adult gliomas. Glutamine likely promotes cancer cell proliferation and survival likely through generation of the TCA cycle intermediate alpha-ketoglutarate (α-KG). Importantly, α-KG is a critical co-factor for histone lysine demethylases including JMJD3, the enzyme responsible for removing the methyl groups from H3K27me3. Our preliminary data shows H3K27M tumor cells require Gln for survival, and if Gln is removed from the culture media, cells can be rescued by the addition of α-KG. Furthermore, Gln deprivation leads to an increase in H3K27 trimethylation similar to direct inhibition of JMJD3. It is for these reasons we hypothesize that H3K27M tumors are dependent on Gln derived α-KG both for feeding the TCA cycle and for further decreasing H3K27 trimethylation. Inhibition of Gln metabolism will likely uncover novel therapeutic targets for this deadly disease. In Aim 1 we will study Gln and glucose metabolism in H3K27M tumor cells and compare this to Wild Type (WT) tumors and Embryonic Stem Cells (ESCs). In Aim 2 we will validate the therapeutic validity of inhibiting Gln metabolism in H3K27M tumors.
Institute:Mayo Clinic
Last Name:Daniels
First Name:David
Address:200 First Street SW Rochester, MN 55905
Email:daniels.david@mayo.edu
Phone:507-284-2511

Subject:

Subject ID:SU001064
Subject Type:Human
Subject Species:Homo sapiens
Taxonomy ID:9606

Factors:

Subject type: Human; Subject species: Homo sapiens (Factor headings shown in green)

mb_sample_id local_sample_id Sample type Grouping
SA064356ms6602-43Cells IV 12h GLC
SA064357ms6602-44Cells IV 12h GLC
SA064358ms6602-45Cells IV 12h GLC
SA064359ms6602-19Cells IV 12h GLN
SA064360ms6602-20Cells IV 12h GLN
SA064361ms6602-21Cells IV 12h GLN
SA064362ms6602-57Cells IV 24h GLC
SA064363ms6602-56Cells IV 24h GLC
SA064364ms6602-55Cells IV 24h GLC
SA064365ms6602-31Cells IV 24h GLN
SA064366ms6602-33Cells IV 24h GLN
SA064367ms6602-32Cells IV 24h GLN
SA064368ms6602-8Cells IV Basal
SA064369ms6602-9Cells IV Basal
SA064370ms6602-7Cells IV Basal
SA064371ms6602-101Cells XVII 12h GLC
SA064372ms6602-100Cells XVII 12h GLC
SA064373ms6602-102Cells XVII 12h GLC
SA064374ms6602-76Cells XVII 12h GLN
SA064375ms6602-78Cells XVII 12h GLN
SA064376ms6602-77Cells XVII 12h GLN
SA064377ms6602-112Cells XVII 24h GLC
SA064378ms6602-113Cells XVII 24h GLC
SA064379ms6602-114Cells XVII 24h GLC
SA064380ms6602-88Cells XVII 24h GLN
SA064381ms6602-90Cells XVII 24h GLN
SA064382ms6602-89Cells XVII 24h GLN
SA064383ms6602-66Cells XVII Basal
SA064384ms6602-65Cells XVII Basal
SA064385ms6602-64Cells XVII Basal
SA064386ms6602-39Media IV 12h GLC
SA064387ms6602-40Media IV 12h GLC
SA064388ms6602-41Media IV 12h GLC
SA064389ms6602-37Media IV 12h GLC
SA064390ms6602-42Media IV 12h GLC
SA064391ms6602-38Media IV 12h GLC
SA064392ms6602-35Media IV 12h GLC
SA064393ms6602-34Media IV 12h GLC
SA064394ms6602-36Media IV 12h GLC
SA064395ms6602-10Media IV 12h GLN
SA064396ms6602-11Media IV 12h GLN
SA064397ms6602-15Media IV 12h GLN
SA064398ms6602-18Media IV 12h GLN
SA064399ms6602-12Media IV 12h GLN
SA064400ms6602-16Media IV 12h GLN
SA064401ms6602-14Media IV 12h GLN
SA064402ms6602-13Media IV 12h GLN
SA064403ms6602-17Media IV 12h GLN
SA064404ms6602-53Media IV 24h GLC
SA064405ms6602-52Media IV 24h GLC
SA064406ms6602-54Media IV 24h GLC
SA064407ms6602-46Media IV 24h GLC
SA064408ms6602-48Media IV 24h GLC
SA064409ms6602-47Media IV 24h GLC
SA064410ms6602-51Media IV 24h GLC
SA064411ms6602-50Media IV 24h GLC
SA064412ms6602-49Media IV 24h GLC
SA064413ms6602-25Media IV 24h GLN
SA064414ms6602-24Media IV 24h GLN
SA064415ms6602-30Media IV 24h GLN
SA064416ms6602-27Media IV 24h GLN
SA064417ms6602-28Media IV 24h GLN
SA064418ms6602-29Media IV 24h GLN
SA064419ms6602-23Media IV 24h GLN
SA064420ms6602-26Media IV 24h GLN
SA064421ms6602-22Media IV 24h GLN
SA064422ms6602-2Media IV Basal
SA064423ms6602-1Media IV Basal
SA064424ms6602-5Media IV Basal
SA064425ms6602-3Media IV Basal
SA064426ms6602-6Media IV Basal
SA064427ms6602-4Media IV Basal
SA064428ms6602-91Media XVII 12h GLC
SA064429ms6602-92Media XVII 12h GLC
SA064430ms6602-94Media XVII 12h GLC
SA064431ms6602-98Media XVII 12h GLC
SA064432ms6602-99Media XVII 12h GLC
SA064433ms6602-97Media XVII 12h GLC
SA064434ms6602-96Media XVII 12h GLC
SA064435ms6602-95Media XVII 12h GLC
SA064436ms6602-93Media XVII 12h GLC
SA064437ms6602-67Media XVII 12h GLN
SA064438ms6602-73Media XVII 12h GLN
SA064439ms6602-74Media XVII 12h GLN
SA064440ms6602-71Media XVII 12h GLN
SA064441ms6602-70Media XVII 12h GLN
SA064442ms6602-68Media XVII 12h GLN
SA064443ms6602-69Media XVII 12h GLN
SA064444ms6602-75Media XVII 12h GLN
SA064445ms6602-72Media XVII 12h GLN
SA064446ms6602-104Media XVII 24h GLC
SA064447ms6602-103Media XVII 24h GLC
SA064448ms6602-110Media XVII 24h GLC
SA064449ms6602-105Media XVII 24h GLC
SA064450ms6602-106Media XVII 24h GLC
SA064451ms6602-109Media XVII 24h GLC
SA064452ms6602-108Media XVII 24h GLC
SA064453ms6602-107Media XVII 24h GLC
SA064454ms6602-111Media XVII 24h GLC
SA064455ms6602-85Media XVII 24h GLN
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Collection:

Collection ID:CO001058
Collection Summary:DIPG IV and DIPG XVII cell lines are collected in this experiment. Susupension cells are harvested using centrifugation at 1200 rpm for 5 min. 1 mL of the supernatant media werr collected in an eppendorf tube and snapped frozen. The cell pellets were broken up into single cell suspension and counted. 1 million cells were taken from the stock and washed 1 x with PBS using table top centrifuge with 10 sec quick spin. The resulting cell pellet was snap frozen. Both the frozen media and cell pellet are stored in -80 C prior transfer.
Sample Type:Glioma cells

Treatment:

Treatment ID:TR001078
Treatment Summary:TCA isotopomer in H3K27M cell lines traced for 0, 12, or 24 hours. Cells grow in regular media without isotopes Cells grow in regular media enriched with 35% U-13C-glutamine Cells grow in regular media enriched with 35% U-13C-glucose Study Design Factors IV Basal - DIPG IV Regular Media No Tracers IV 12h GLN - DIPG IV Gultamine enriched media 12 hour Tracers IV 24h GLN - DIPG IV Gultamine enriched media 24 hour Tracers IV 12h GLC - DIPG IV Glucose enriched media 12 hour Tracers IV 24h GLC - DIPG IV Glucose enriched media 24 hour Tracers XVII Basal - DIPG XVII Regular Media No Tracers XVII 12h GLN - DIPG XVII Gultamine enriched media 12 hour Tracers XVII 24h GLN - DIPG XVII Gultamine enriched media 24 hour Tracers XVII 12h GLC - DIPG XVII Glucose enriched media 12 hour Tracers XVII 24h GLC - DIPG XVII Glucose enriched media 24 hour Tracers

Sample Preparation:

Sampleprep ID:SP001071
Sampleprep Summary:TCA Isotopomers in glioma cell lines traced for 0, 12, 24 hours

Combined analysis:

Analysis ID AN001682
Analysis type MS
Chromatography type GC
Chromatography system Agilent 7890B
Column Agilent HP5-MS (30m × 0.25mm, 0.25 um)
MS Type EI
MS instrument type Single quadrupole
MS instrument name Agilent 5977A
Ion Mode POSITIVE
Units Enrichment

Chromatography:

Chromatography ID:CH001183
Instrument Name:Agilent 7890B
Column Name:Agilent HP5-MS (30m × 0.25mm, 0.25 um)
Chromatography Type:GC

MS:

MS ID:MS001557
Analysis ID:AN001682
Instrument Name:Agilent 5977A
Instrument Type:Single quadrupole
MS Type:EI
Ion Mode:POSITIVE
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