RGD Reference Report - Increased nuclear proteins in muscle satellite cells in aged animals as compared to young growing animals. - Rat Genome Database

Send us a Message
Submit Data |  Help |  Video Tutorials |  News |  Publications |  Download |  REST API |  Citing RGD |  Contact   
Search RGD Grant Resources Citing RGD About Us Contact Us
Genes Variants Community Projects QTLs Strains Markers Genome Information Ontologies Cell Lines References Download Submit Data
OntoMate (Literature Search) JBrowse (Genome Browser) Synteny Browser (VCMap) Variant Visualizer Multi-Ontology Enrichment (MOET) Gene-Ortholog Location Finder (GOLF) InterViewer (Protein-Protein Interactions) PhenoMiner (Quatitative Phenotypes) Gene Annotator OLGA (Gene List Generator) AllianceMine GViewer (Genome Viewer)
Aging & Age-Related Disease Cancer & Neoplastic Disease Cardiovascular Disease Coronavirus Disease Developmental Disease Diabetes Hematologic Disease Immune & Inflammatory Disease Infectious Disease Liver Disease Neurological Disease Obesity & Metabolic Syndrome Renal Disease Respiratory Disease Sensory Organ Disease
Find Models   new Genetic Models Autism Models Rat PhenoMiner (Quantitative Phenotypes) Chinchilla PhenoMiner Expected Ranges (Quantitative Phenotype) PhenoMiner Term Comparison Hybrid Rat Diversity Panel Phenotypes Phenotypes in Other Animal Models Animal Husbandry Strain Medical Records Phylogenetics Strain Availability Calendar Rats 101 Submissions Photo Archive
Pathways
Rat Community Forum Directory of Rat Laboratories Video Tutorials News RGD Publications RGD Presentations Archive Nomenclature Guidelines Resource Links Laboratory Resources Employment Resources

Increased nuclear proteins in muscle satellite cells in aged animals as compared to young growing animals.

Authors: Machida, S  Booth, FW 
Citation: Machida S and Booth FW, Exp Gerontol. 2004 Oct;39(10):1521-5.
RGD ID: 10047125
Pubmed: PMID:15501022   (View Abstract at PubMed)
DOI: DOI:10.1016/j.exger.2004.08.009   (Journal Full-text)

Evidence implies that satellite cells could play some limiting role in aged muscle undergoing repair or maintenance of mass, which is of potential clinical concern as this could contribute to sarcopenia. Further, insufficient information is available concerning the cellular mechanisms responsible for the lower rat satellite cell proliferation in old animals. Thus, it was hypothesized that the following proteins would be increased in nuclei of satellite cells from old rat skeletal muscle: the cyclin-dependent kinase (CDK) inhibitors p21(WAF1/CIP1) and p27(Kip1) as well as the transcription factors p53 and Forkhead box, subgroup O1 (FOXO1). In addition, the NAD(+)-dependent histone deacetylase SIRT1, the mammalian ortholog of the yeast SIR2 (silence information regulator 2) and a member of the Sirtuin family, was hypothesized to decrease in satellite cell nuclei of old rats. Old satellite cells (30-months old) exhibited a lesser number of BrdU-positive cells as compared to satellite cells (3-months old) from young growing animals. Western blot analysis demonstrated that nuclei of old satellite cells accumulated the cell cycle inhibitors p21(WAF1/CIP1) and p27(Kip1). In addition, nuclear p53 and FOXO1 proteins were also higher in old satellite cells than in cells from young growing animals. These data indicated both p53/p21(WAF1/CIP1)- and FOXO1/p27(Kip1)-dependent pathways might contribute to the age-associated decrease in satellite cell proliferation. Cytoplasmic manganese superoxide dismutase (MnSOD), a gene driven by FOXO1, was higher in old satellite cells. Unexpectedly, nuclear SIRT1 was also increased in old satellite cells compared with satellite cells from young growing animals. The physiological significance of enhanced nuclear SIRT1 expression in old satellite cells remains elusive at this time. In summary, satellite cells in old rats have nuclear accumulation of proteins inhibiting the cell cycle as compared to young, growing animals.

Objects referenced in this article
Gene Sirt1 sirtuin 1 Rattus norvegicus

Additional Information