The proteasome is the major cellular proteolytic machinery. It is involved in the regulation of various pathways via the selective degradation of either short-lived normal proteins or damaged proteins permitting the cellular detoxification. Proteasome has impaired function during several biological processes, including aging and diseases; however, it can be activated through overexpression of beta(5)- or beta(1)-subunits, resulting to enhanced survival and extended lifespan. In the current study, we have investigated proteasomal up-regulation via overexpression of hUMP1/POMP protein, the known accessory factor for proteasome assembly in humans. hUMP1/POMP overexpressing fibroblasts have increased levels of functional proteasome and enhanced capacity to cope better and faster with various oxidative stressors. These data highlight hUMP1/POMP role in proteasome assembly and further strengthen the prospect of genetic manipulation of the proteasomal system.