Abstract
Unknown mechanisms govern degradation of the p19Arf tumor suppressor, an activator of p53 and inhibitor of ribosomal RNA processing. Kinetic metabolic labeling of cells with [3H]-leucine indicated that p19Arf is a relatively stable protein (half-life approximately 6 h) whose degradation depends upon the ubiquitin-proteasome pathway. Although p19Arf binds to the Mdm2 E3 ubiquitin protein ligase to activate p53, neither of these molecules regulates p19Arf turnover. In contrast, the nucleolar protein nucleophosmin/B23, which binds to p19Arf with high stoichiometry, retards its turnover, and Arf mutants that do not efficiently associate with nucleophosmin/B23 are unstable and functionally impaired. Mouse p19Arf, although highly basic (22% arginine content), contains only a single lysine residue absent from human p14ARF, and substitution of arginine for lysine in mouse p19Arf had no effect on its rate of degradation. Mouse p19Arf (either wild-type or lacking lysine) and human p14ARF undergo N-terminal polyubiquitination, a process that has not as yet been documented in naturally occurring lysine-less proteins. Re-engineering of the p19Arf N terminus to provide consensus sequences for N-acetylation limited Arf ubiquitination and decelerated its turnover.