Abstract
Intracellular proteolysis plays an important role in regulating fundamental cellularprocesses such as cell cycle, immune and inflammation responses, development,differentiation, and transformation. The ubiquitin-proteasome system accounts for thedegradation of the majority of cellular short-lived proteins. This system involves theconjugation of multiple ubiquitin residues to the target protein and its recognition by the26S proteasome through the poly-ubiquitin chain. Studies on the degradation of ornithinedecarboxylase (ODC) demonstrated that poly-ubiquitin is not the only signal recognizedby the 26S proteasome. The recognition of ODC by the 26S proteasome is mediated byinteraction with a polyamine-induced protein termed, antizyme (Az). While thedegradation of ODC is ubiquitin-independent, the degradation of its regulator Az, and ofantizyme-inhibitor (AzI), an ODC homologous protein that regulates Az availability, areubiquitin dependent. Interestingly, ODC undergoes another type of ubiquitin-independentdegradation by the 20S proteasome that is regulated by NAD(P)H quinoneoxidoreductase 1 (NQO1). Considering the prevalence of the ubiquitin system in theprocess of cellular protein degradation it is rather remarkable that a key cellular enzymeis subjected to two different proteolytic pathways that are different from the ubiquitindependent one. This exceptional behavior of ODC provides us with valuable insightsregarding protein degradation in general.