Aging is associated with a general decline of cognitive functions, and it is widely accepted that this decline results from changes in expression of proteins involved in regulation of synaptic plasticity. However, several lines of evidence has accumulated that impaired function of aged brain may be related to significant alterations in the energy metabolism. In the current study, we employed the label-free „Total protein approach” (TPA) method to focus on similarities and differences in energy metabolism proteomes of young (1 month-old) and aged (22 month-old) murine brains. We quantified over 7,000 proteins in each of three analyzed brain structures: hippocampus, cerebral cortex and cerebellum. To the best of our knowledge, this is the most extensive quantitative proteomic description of energy metabolism pathways during physiological aging of mice. The analysis demonstrates that aging does not affect significantly the abundance of total proteins in the studied brain structures, however, the levels of proteins constituting energy metabolism pathways differ significantly between young and aged mice.