| First Author | O'Connell GC | Year | 2015 |
| Journal | Mitochondrion | Volume | 25 |
| Pages | 87-97 | PubMed ID | 26458787 |
| Mgi Jnum | J:313144 | Mgi Id | MGI:6791217 |
| Doi | 10.1016/j.mito.2015.10.004 | Citation | O'Connell GC, et al. (2015) IL-15Ralpha deficiency in skeletal muscle alters respiratory function and the proteome of mitochondrial subpopulations independent of changes to the mitochondrial genome. Mitochondrion 25:87-97 |
| abstractText | Interleukin-15 receptor alpha knockout (IL15RalphaKO) mice exhibit a greater skeletal muscle mitochondrial density with an altered mitochondrial morphology. However, the mechanism and functional impact of these changes have not been determined. In this study, we characterized the functional, proteomic, and genomic alterations in mitochondrial subpopulations isolated from the skeletal muscles of IL15RalphaKO mice and B6129 background control mice. State 3 respiration was greater in interfibrillar mitochondria and whole muscle ATP levels were greater in IL15RalphaKO mice supporting the increases in respiration rate. However, the state 3/state 4 ratio was lower, suggesting some degree of respiratory uncoupling. Proteomic analyses identified several markers independently in mitochondrial subpopulations that are associated with these functional alterations. Next Generation Sequencing of mtDNA revealed a high degree of similarity between the mitochondrial genomes of IL15RalphaKO mice and controls in terms of copy number, consensus coding and the presence of minor alleles, suggesting that the functional and proteomic alterations we observed occurred independent of alterations to the mitochondrial genome. These data provide additional evidence to implicate IL-15Ralpha as a regulator of skeletal muscle phenotypes through effects on the mitochondrion, and suggest these effects are driven by alterations to the mitochondrial proteome. |
