The Transcriptional Corepressor RIP140 Regulates Oxidative Metabolism in Skeletal Muscle

Autor: James Scott, Anthea Rowlerson, Matti Poutanen, Malcolm G. Parker, Asha Seth, Victoria Pocock, Mande K. Kumaran, Roger White, Jennifer H. Steel, Donna Nichol, Margaret A. Mobberley, Timothy A. Ryder, Asmaà Fritah
Rok vydání: 2007
Předmět:
Physiology
Myoblasts
PROLIFERATOR-ACTIVATED RECEPTOR
Mice
0302 clinical medicine
Myosin
Myocyte
Protein Isoforms
FIBER-TYPE
PPAR delta
Cells
Cultured
GENE-EXPRESSION
Oligonucleotide Array Sequence Analysis
Regulation of gene expression
Mice
Knockout
0303 health sciences
COACTIVATOR
Nuclear Proteins
MITOCHONDRIAL BIOGENESIS
Cadherins
Cell biology
Nuclear Receptor Interacting Protein 1
medicine.anatomical_structure
Biochemistry
Receptors
Estrogen
Peroxisome proliferator-activated receptor delta
Fatty Acid Binding Protein 3
Life Sciences & Biomedicine
Oxidation-Reduction
FATTY-ACID OXIDATION
ENDOCRINOLOGY & METABOLISM
CELL-LINES
Biology
BINDING PROTEIN
ERR-ALPHA
Myosins
Fatty Acid-Binding Proteins
03 medical and health sciences
Short Article
Oxygen Consumption
medicine
1101 Medical Biochemistry And Metabolomics
Animals
Muscle
Skeletal
Molecular Biology
030304 developmental biology
Adaptor Proteins
Signal Transducing
Science & Technology
Gene Expression Profiling
Skeletal muscle
0601 Biochemistry And Cell Biology
DNA
Cell Biology
Nuclear receptor
Mitochondrial biogenesis
Gene Expression Regulation
Energy Metabolism
Corepressor
030217 neurology & neurosurgery
NUCLEAR RECEPTORS
Zdroj: Cell Metabolism
ISSN: 1550-4131
DOI: 10.1016/j.cmet.2007.08.004
Popis: Summary Nuclear receptor signaling plays an important role in energy metabolism. In this study we demonstrate that the nuclear receptor corepressor RIP140 is a key regulator of metabolism in skeletal muscle. RIP140 is expressed in a fiber type-specific manner, and manipulation of its levels in null, heterozygous, and transgenic mice demonstrate that low levels promote while increased expression suppresses the formation of oxidative fibers. Expression profiling reveals global changes in the expression of genes implicated in both myofiber phenotype and metabolic functions. Genes involved in fatty-acid oxidation, oxidative phosphorylation, and mitochondrial biogenesis are upregulated in the absence of RIP140. Analysis of cultured myofibers demonstrates that the changes in expression are intrinsic to muscle cells and that nuclear receptor-regulated genes are direct targets for repression by RIP140. Therefore RIP140 is an important signaling factor in the regulation of skeletal muscle function and physiology.
Databáze: OpenAIRE
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