In this study, we investigated proteasome composition and activity in the brain of Macaca fascicularis, in order to test whether this nonhuman primate species might be a suitable animal model for anti-aging therapies in the central nervous system, addressed to the ubiquitin-proteasome system. We detected the catalytic beta subunits of constitutive proteasome, as well as the PA28 regulator and a subunit of immunoproteasome (i.e., beta1i [LMP2]), in seven adult, six old, and one young nonhuman primate brains. Subunit expression and proteasome activity were not influenced by the age of the animal in any of the brain regions (temporal and frontal cortex and cerebellum) we studied. However, an area-specific susceptibility to aged-related oxidative stress emerged. On the whole, the results suggest that, compared to humans, Macaca fascicularis primates may have a different age-dependent regulation of the ubiquitin-proteasome system and, possibly, of neuroinflammation in the brain. An in silico model of the 20S immunoproteasome containing the Macaca fascicularis alpha and beta subunits, present in database or identified by our group (i.e., LMP2), has been developed. Additional information was obtained by de novo sequencing of the beta1 (delta) subunit of Macaca fascicularis. A comparison with humans suggests that in multiprotein complexes some functional subunits, such as alpha subunits, appear to be preferentially conserved during evolution.