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PXD036752-1

PXD036752 is an original dataset announced via ProteomeXchange.

Dataset Summary
TitleIntegrative study of mitochondrial dysfunction in skeletal muscle during pancreatic cancer cachexia
DescriptionBackground. Pancreatic Ductal AdenoCarcinoma (PDAC), the most frequent pancreatic cancer, is a deadly cancer since often diagnosed late and resistant to current therapies. A high proportion of PDAC patients are affected by cachexia induced by the tumor. This cachexia, characterized by loss of muscle mass and strength, contributes to patient frailty and poor therapeutic response. We showed that mitochondrial metabolism is reprogrammed in PDAC tumor cell and constitutes a vulnerability, opening novel therapeutic avenues. The objective of the present work was to investigate the molecular mechanisms underlying mitochondrial remodeling in PDAC cachectic skeletal muscle. Methods. Our study focused on the gastrocnemius muscle of genetically-engineered mice developing spontaneously a PDAC associated with cachexia (KIC GEMM). We compared KIC mice developing a pancreatic tumor in 9-10 weeks to control littermates. We did an integrative study combining in vivo functional analyses by non-invasive Magnetic Resonance, and ex-vivo histology, Seahorse, RNA-sequencing, and proteomic mass spectrometry and western blotting analyses. Results. The cachectic KIC PDAC mice show a severe sarcopenia with loss of muscle mass and strength associated with a diminution in muscle fiber’s size and induction of protein degradation processes. Mitochondria in PDAC atrophic muscles show decreased respiratory capacities and structural alterations (“hyperfused” mitochondria), associated with deregulation of oxidative phosphorylation and mitochondrial dynamics pathways at the molecular level. Increased expression of multiple reactive oxygen species (ROS) defense genes suggests oxidative stress prone to affect mitochondrial macromolecules and homeostasis. Interestingly, multiple genes and proteins involved in DNA metabolism pathways, such as DNA damage, degradation of DNA, nucleotide synthesis, and folate pathway were found altered in sarcopenic mitochondria. While the number of mitochondria was not changed, the mitochondrial mass was decreased by a factor of 2 and the mitochondrial DNA by a factor of 3, suggesting a defect in mitochondrial genome homeostasis. Conclusions. We unveiled that mitochondrial alterations in skeletal muscle play a central role in PDAC-induced cachexia. Muscle atrophy is associated with strong mitochondrial metabolic defects that are not limited to carbohydrates and protein, but concern also lipids, ROS and nucleic acids. Our data provide a frame to guide towards the most relevant molecular markers that would be affected at the start of tumor development and could be targets in the clinic to limit PDAC-induced cachexia at early stages of the pathology.
HostingRepositoryPRIDE
AnnounceDate2024-04-09
AnnouncementXMLSubmission_2024-04-09_05:48:58.646.xml
DigitalObjectIdentifier
ReviewLevelPeer-reviewed dataset
DatasetOriginOriginal dataset
RepositorySupportUnsupported dataset by repository
PrimarySubmitterAUDEBERT Stephane
SpeciesList scientific name: Mus musculus (Mouse); NCBI TaxID: 10090;
ModificationListmonohydroxylated residue; iodoacetamide derivatized residue
InstrumentOrbitrap Fusion Lumos
Dataset History
RevisionDatetimeStatusChangeLog Entry
02022-09-14 14:35:06ID requested
12024-04-09 05:48:59announced
22024-10-22 06:35:33announced2024-10-22: Updated project metadata.
Publication List
10.7554/ELIFE.93312.1;
Keyword List
submitter keyword: gastrocnemius muscle, energetic metabolism, Mouse, cachexia, mitochondria, muscle wasting,LC-MSMS, pancreatic cancer
Contact List
CARRIER Alice
contact affiliationCentre de Recherche en Cancérologie de Marseille (CRCM) Inserm U1068 - CNRS UMR7258 - Institut Paoli-Calmettes - Aix-Marseille Université Campus de Luminy, Case 915, 163 Avenue de Luminy 13288 Marseille Cedex 9 - FRANCE
contact emailAlice.carrier@inserm.fr
lab head
AUDEBERT Stephane
contact affiliationMarseille Proteomic, Centre de Recherche en Cancérologie de Marseille, Inserm UMR1068, CNRS UMR7258, Aix Marseille Université U105, Institut Paoli Calmettes, 27 Boulevard Leï Roure CS30059 13273 Marseille Cedex 09 France
contact emailstephane.audebert@inserm.fr
dataset submitter
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