Authors
Julijana Ivanisevic, Kelly L Stauch, Michael Petrascheck, H Paul Benton, Adrian A Epstein, Mingliang Fang, Santhi Gorantla, Minerva Tran, Linh Hoang, Michael E Kurczy, Michael D Boska, Howard E Gendelman, Howard S Fox, Gary Siuzdak
Publication date
2016/5
Journal
Aging (Albany NY)
Volume
8
Issue
5
Pages
1000
Publisher
Impact Journals, LLC
Description
Brain function is highly dependent upon controlled energy metabolism whose loss heralds cognitive impairments. This is particularly notable in the aged individuals and in age-related neurodegenerative diseases. However, how metabolic homeostasis is disrupted in the aging brain is still poorly understood. Here we performed global, metabolomic and proteomic analyses across different anatomical regions of mouse brain at different stages of its adult lifespan. Interestingly, while severe proteomic imbalance was absent, global-untargeted metabolomics revealed an energy metabolic drift or significant imbalance in core metabolite levels in aged mouse brains. Metabolic imbalance was characterized by compromised cellular energy status (NAD decline, increased AMP/ATP, purine/pyrimidine accumulation) and significantly altered oxidative phosphorylation and nucleotide biosynthesis and degradation. The central …
Scholar articles
J Ivanisevic, KL Stauch, M Petrascheck, HP Benton… - Aging (Albany NY), 2016