Effects of diet and age on canine liver gene expression
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ABSTRACT: The liver is the central organ in the regulation of nutrient metabolism, xenobiotic metabolism, and detoxification. Aging leads to a marked change in liver structure and function, characterized by a decline in weight, blood flow, regeneration rate, and detoxification. However, the mechanisms that contribute to these changes are poorly described. Global gene expression profiles of aged versus young adult dogs have not been compared previously. Thus, we used canine microarrays to compare gene expression profiles of liver tissue from geriatric and young adult dogs fed 2 different diets. Liver tissue samples were collected from 6 geriatric (12 yr-old) and 6 young adult (1 yr-old) female beagles after being fed one of two diets (animal protein-based versus plant-protein based) for 12 months. RNA samples were hybridized to Affymetrix GeneChip Canine Genome Arrays. Statistical analyses indicated that age had the greatest impact on gene expression, with 234 gene transcripts differentially expressed in geriatric dogs. Although not as robust as age, diet affected mRNA abundance of 137 gene transcripts. The effect of age was most notable, with increased expression in genes related to inflammation, oxidative stress, and glycolysis and decreased expression in genes associated with regeneration, xenobiotic metabolism, and cholesterol trafficking in senior dogs. The effect of diet on gene expression was not consistent, but led to more changes in young adult dogs.
ORGANISM(S): Canis lupus familiaris
PROVIDER: GSE22945 | GEO | 2011/01/01
SECONDARY ACCESSION(S): PRJNA127789
REPOSITORIES: GEO
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