Serum and Soleus Metabolomics Signature of Klf10 Knockout Mice to Identify Potential Biomarkers.
Nadine BaroukhNathan CanteleuxAntoine LefèvreCamille DupuyCécile MartiasAntoine PressetMalayannan SubramaniamJohn R HawsePatrick EmondPhilippe PouletautSandrine MorandatSabine F BensamounLydie Nadal-DesbaratsPublished in: Metabolites (2022)
The transcription factor Krüppel-like factor 10 ( Klf10 ), also known as Tieg1 for TGFβ (Inducible Early Gene-1) is known to control numerous genes in many cell types that are involved in various key biological processes (differentiation, proliferation, apoptosis, inflammation), including cell metabolism and human disease. In skeletal muscle, particularly in the soleus, deletion of the Klf10 gene ( Klf10 KO) resulted in ultrastructure fiber disorganization and mitochondrial metabolism deficiencies, characterized by muscular hypertrophy. To determine the metabolic profile related to loss of Klf10 expression, we analyzed blood and soleus tissue using UHPLC-Mass Spectrometry. Metabolomics analyses on both serum and soleus revealed profound differences between wild-type (WT) and KO animals. Klf10 deficient mice exhibited alterations in metabolites associated with energetic metabolism. Additionally, chemical classes of aromatic and amino-acid compounds were disrupted, together with Krebs cycle intermediates, lipids and phospholipids. From variable importance in projection (VIP) analyses, the Warburg effect, citric acid cycle, gluconeogenesis and transfer of acetyl groups into mitochondria appeared to be possible pathways involved in the metabolic alterations observed in Klf10 KO mice. These studies have revealed essential roles for Klf10 in regulating multiple metabolic pathways whose alterations may underlie the observed skeletal muscle defects as well as other diseases.
Keyphrases
- transcription factor
- mass spectrometry
- skeletal muscle
- genome wide identification
- single cell
- oxidative stress
- ms ms
- amino acid
- wild type
- genome wide
- dna binding
- signaling pathway
- copy number
- cell death
- liquid chromatography
- poor prognosis
- bone marrow
- insulin resistance
- magnetic resonance
- high resolution
- computed tomography
- adipose tissue
- mesenchymal stem cells
- fatty acid
- high performance liquid chromatography
- solid phase extraction