- SUMO1 modification stabilizes CDK6 protein and drives the cell cycle and glioblastoma progression.
SUMO1 modification stabilizes CDK6 protein and drives the cell cycle and glioblastoma progression.
Ubiquitination governs oscillation of cyclin-dependent kinase (CDK) activity through a periodic degradation of cyclins for orderly cell cycle progression; however, the mechanism that maintains the constant CDK protein levels throughout the cell cycle remains unclear. Here we show that CDK6 is modified by small ubiquitin-like modifier-1 (SUMO1) in glioblastoma, and that CDK6 SUMOylation stabilizes the protein and drives the cell cycle for the cancer development and progression. CDK6 is also a substrate of ubiquitin; however, CDK6 SUMOylation at Lys 216 blocks its ubiquitination at Lys 147 and inhibits the ubiquitin-mediated CDK6 degradation. Throughout the cell cycle, CDK1 phosphorylates the SUMO-specific enzyme, ubiquitin-conjugating enzyme9 (UBC9) that in turn mediates CDK6 SUMOylation during mitosis; CDK6 remains SUMOylated in G1 phase and drives the cell cycle through G1/S transition. Thus, SUMO1-CDK6 conjugation constitutes a mechanism of cell cycle control and inhibition of this SUMOylation pathway may provide a strategy for treatment of glioblastoma.