Dataset: Progressive loss of PGC-1alpha expression in aging muscle potentiates glucose intolerance and systemic inflammation
Decreased mitochondrial mass and function in muscle of diabetic patients is associated with low PGC-1alpha, a transcriptional coactivator...
Decreased mitochondrial mass and function in muscle of diabetic patients is associated with low PGC-1alpha, a transcriptional coactivator of the mitochondrial gene program. To investigate whether reduced PGC-1alpha and oxidative capacity in muscle directly contributes to age-related glucose intolerance, we compared the genetic signatures and metabolic profiles of aging mice lacking muscle PGC-1alpha. Microarray analysis revealed that a significant proportion of PGC-1alpha-dependent changes in gene expression overlapped with age-associated effects, and aging muscle and muscle lacking PGC-1alpha shared gene signatures of impaired electron transport chain activity and TGFbeta signalling. Gastrocnemius muscle mRNA from young (10 week old) and old (24 month old) wild-type and knock-out (muscle-specific PGC-1alpha, myogenin-cre) C57Bl/6N/6J/129 mice
- Species:
- mouse
- Samples:
- 12
- Source:
- E-GEOD-52550
- PubMed:
- 24280126
- Updated:
- Dec.12, 2014
- Registered:
- Nov.12, 2014
| Sample | AGE | GENOTYPE |
|---|---|---|
| GSM1269619 | YOUNG | WT |
| GSM1269619 | YOUNG | WT |
| GSM1269619 | YOUNG | WT |
| GSM1269622 | YOUNG | KO |
| GSM1269622 | YOUNG | KO |
| GSM1269622 | YOUNG | KO |
| GSM1269625 | OLD | WT |
| GSM1269625 | OLD | WT |
| GSM1269625 | OLD | WT |
| GSM1269628 | OLD | KO |
| GSM1269628 | OLD | KO |
| GSM1269628 | OLD | KO |