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Series GSE13205 Query DataSets for GSE13205
Status Public on Nov 14, 2008
Title Skeletal muscle transcriptome in ICU patients suffering from sepsis induced multiple organ failure
Organism Homo sapiens
Experiment type Expression profiling by array
Summary Septic patients treated in the intensive care unit (ICU) often develop multiple organ failure including persistent skeletal muscle dysfunction which results in the patient’s protracted recovery process. We have demonstrated that muscle mitochondrial enzyme activities are impaired in septic ICU patients resulting in decreased cellular energy which will interfere with muscle function and metabolism. Here we use detailed phenotyping and genomics to elucidate mechanisms leading to these impairments. Methodology/Principle Findings Utilising biopsy material from seventeen patients and ten age-matched controls we demonstrate that neither mitochondrial in vivo protein synthesis nor expression of mitochondrial genes are compromised. Indeed, there was partial activation of the mitochondrial biogenesis pathway involving NRF2?/GABP and its target genes TFAM, TFB1M and TFB2M yet clearly this failed to maintain mitochondrial function. We therefore utilised transcript profiling and pathway analysis of ICU patient skeletal muscle to generate insight into the molecular defects driving loss of muscle function and metabolic homeostasis. Gene ontology analysis of Affymetrix analysis demonstrated substantial loss of muscle specific genes, a global oxidative stress response related to most probably cytokine signalling, altered insulin related signalling and a substantial overlap between patients and muscle wasting/inflammatory animal models. MicroRNA 21 processing appeared defective suggesting that post-transcriptional protein synthesis regulation is altered by disruption of tissue microRNA expression. Finally, we were able to demonstrate that the phenotype of skeletal muscle in ICU patients is not merely one of inactivity, it appears to be an actively remodelling tissue, influenced by several mediators, all of which may be open to manipulation with the aim to improve clinical outcome. Conclusions/Significance This first combined protein and transcriptome based analysis of human skeletal muscle obtained from septic patients demonstrated that losses of mitochondria and muscle mass are accompanied by sustained protein synthesis (anabolic process) while dysregulation of transcription programmes appears to fail to compensate for increased damage and proteolysis. Our analysis identified both validated and novel clinically tractable targets to manipulate these failing processes and pursuit of these could lead to new potential treatments.

Keywords: Disease state analysis
 
Overall design 13 septic samples, 8 controls
 
Contributor(s) Timmons JA, Rooyackers O
Citation(s) 18997871
Submission date Oct 15, 2008
Last update date Mar 25, 2019
Contact name Iain Gallagher
E-mail(s) [email protected]
Phone 00 44 1786 46 6024
Organization name University of Stirling
Department Faculty of Health Sciences and Sport
Street address Room 4B133 Cottrell Building, University of Stirling, Airthrey Road
City Stirling
ZIP/Postal code FK9 4LA
Country United Kingdom
 
Platforms (1)
GPL570 [HG-U133_Plus_2] Affymetrix Human Genome U133 Plus 2.0 Array
Samples (21)
GSM333436 Muscle septic k49
GSM333437 Muscle septic k50
GSM333438 Muscle septic k53
Relations
BioProject PRJNA109749

Download family Format
SOFT formatted family file(s) SOFTHelp
MINiML formatted family file(s) MINiMLHelp
Series Matrix File(s) TXTHelp

Supplementary file Size Download File type/resource
GSE13205_RAW.tar 101.7 Mb (http)(custom) TAR (of CEL)
Processed data included within Sample table

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