Post-translational regulation of the tumor suppressor p27^KIP1

Abstract.

Mitogenic signals stimulate cell division by activating cyclin/cyclin-dependent kinase (CDK) complexes. Their timely regulation ensures proper cell cycle progression. It is therefore not surprising that cyclin/CDK complexes are integrators of multiple signals from both the extracellular environment and intracellular cues. Important regulators of cyclin/CDKs are the CDK inhibitors that have attracted attention due to their association with disease. p27^KIP1 is a CDK inhibitor that controls CDK activity throughout the cell cycle. As a CDK inhibitor, p27^KIP1 has tumor suppressor activity. Besides CDKs, p27^KIP1 regulates additional cellular processes, including cell motility, some of which seem to mediate oncogenic activities of p27^KIP1. These activities of p27^KIP1 are regulated through multiple phosphorylation sites, targeted by several signal transduction pathways. Understanding functions and regulation of p27^KIP1 will be important to determine which isoform of p27^KIP1 has anti- or pro-tumorigenic activities. Such knowledge might be of prognostic value and may offer novel therapeutic windows.