Gene/Protein
Disease
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Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: EC:2.3.1.21 (
CPT
)
4,580
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The mitochondrial pyruvate dehydrogenase complex (PDC) catalyses the oxidative decarboxylation of pyruvate, and links glycolysis to the tricarboxylic acid cycle and ATP production. Adequate flux through PDC is important in tissues with a high ATP requirement, in lipogenic tissues (since it provides cytosolic acetyl-CoA for fatty acid (FA) synthesis), and in generating cytosolic malonyl-CoA, a potent inhibitor of
carnitine palmitoyltransferase
(CPT I). Conversely, suppression of PDC activity is crucial for glucose conservation when glucose is scarce. This review describes recent advances relating to the control of mammalian PDC activity by phosphorylation (inactivation) and dephosphorylation (activation, reactivation), in particular regulation of PDC by pyruvate dehydrogenase kinase (PDK) which phosphorylates and inactivates PDC. PDK activity is that of a family of four proteins (
PDK1
-4). PDK2 and PDK4 appear to be expressed in most major tissues and organs of the body,
PDK1
appears to be limited to the heart and pancreatic islets, and PDK3 is limited to the kidney, brain and testis. PDK4 is selectively upregulated in the longer term in most tissues and organs in response to starvation and hormonal imbalances such as insulin resistance, diabetes mellitus and hyperthyroidism. Parallel increases in PDK2 and PDK4 expression appear to be restricted to gluconceogenesic tissues, liver and kidney, which take up as well as generate pyruvate. Factors that regulate PDK4 expression include FA oxidation and adequate insulin action. PDK4 is also either a direct or indirect target of peroxisome proliferator-activated receptor (PPAR) alpha. PPAR alpha deficiency in liver and kidney restricts starvation-induced upregulation of PDK4; however, the role of PPAR alpha in heart and skeletal muscle appears to be more complex. These observations may have important implications for the pharmacological modulation of PDK activity (e.g. use of PPAR alpha activators) for the control of whole-body glucose, lipid and lactate homeostasis in disease states and suggest that therapeutic interventions must be tissue targeted so that whole-body fuel homeostasis is not adversely perturbed.
...
PMID:Therapeutic potential of the mammalian pyruvate dehydrogenase kinases in the prevention of hyperglycaemia. 1247 89
H9c2 myoblasts are a cell model used as an alternative for cardiomyocytes. H9c2 cells have the ability to differentiate towards a cardiac phenotype when the media serum is reduced in the presence of all-trans-retinoic acid (RA), creating multinucleated cells with low proliferative capacity. In the present study, we performed for the first time a transcriptional analysis of the H9c2 cell line in two differentiation states, i.e. embryonic cells and differentiated cardiac-like cells. The results show that RA-induced H9c2 differentiation increased the expression of genes encoding for cardiac sarcomeric proteins such as troponin T, or calcium transporters and associated machinery, including SERCA2, ryanodine receptor and phospholamban as well as genes associated with mitochondrial energy production including respiratory chain complexes subunits, mitochondrial creatine kinase,
carnitine palmitoyltransferase I
and uncoupling proteins. Undifferentiated myoblasts showed increased gene expression of pro-survival proteins such as Bcl-2 as well as cell cycle-regulating proteins. The results indicate that the differentiation of H9c2 cells lead to an increase of transcripts and protein levels involved in calcium handling, glycolytic and mitochondrial metabolism, confirming that H9c2 cell differentiation induced by RA towards a more cardiac-like phenotype involves remodeled mitochondrial function. PI3K,
PDK1
and p-CREB also appear to be involved on H9c2 differentiation. Furthermore, complex analysis of differently expressed transcripts revealed significant up-regulation of gene expression related to cardiac muscle contraction, dilated cardiomyopathy and other pathways specific for the cardiac tissue. Metabolic and gene expression remodeling impacts cell responses to different stimuli and determine how these cells are used for biochemical assays.
...
PMID:Gene Expression Profiling of H9c2 Myoblast Differentiation towards a Cardiac-Like Phenotype. 2612 Nov 49
The specific mechanism of pulmonary arterial hypertension (PAH) remains elusive. The present study aimed to explore the underlying mechanism of PAH through the identity of novel biomarkers for PAH using metabolomics approach. Serum samples from 40 patients with idiopathic PAH (IPAH), 20 patients with congenital heart disease-associated PAH (CHD-PAH) and 20 healthy controls were collected and analysed by ultra-high-performance liquid chromatography coupled with high-resolution mass spectrometry (UPLC-HRMS). Orthogonal partial least square-discriminate analysis (OPLS-DA) was applied to screen potential biomarkers. These results were validated in monocrotaline (MCT)-induced PAH rat model. The OPLS-DA model was successful in screening distinct metabolite signatures which distinguished IPAH and CHD-PAH patients from healthy controls, respectively (26 and 15 metabolites). Unbiased analysis from OPLS-DA identified 31 metabolites from PAH patients which were differentially regulated compared to the healthy controls. Our analysis showed dysregulation of the different metabolic pathways, including lipid metabolism, glucose metabolism, amino acid metabolism and phospholipid metabolism pathways in PAH patients compared to their healthy counterpart. Among these metabolites from dysregulated metabolic pathways, a panel of metabolites from lipid metabolism and fatty acid oxidation (lysophosphatidylcholine, phosphatidylcholine, perillic acid, palmitoleic acid, N-acetylcholine-d-sphingomyelin, oleic acid, palmitic acid and 2-Octenoylcarnitine metabolites) were found to have a close association with PAH. The results from the analysis of both real-time quantitative PCR and Western blot showed that expression of LDHA, CD36, FASN,
PDK1
GLUT1 and
CPT
-1 in right heart/lung were significantly up-regulated in MCT group than the control group.
...
PMID:Metabolomics reveals metabolite changes of patients with pulmonary arterial hypertension in China. 3194 4
