Expression of a p16INK4a-specific ribozyme downmodulates p16INK4a abundance and accelerates cell proliferation.

The pl6INK4a tumor suppressor negatively regulates progression through the G1 phase of the mammalian cell cycle. To mimic the downmodulation of p16INK4a commonly seen in cancer, we designed and characterized a hammerhead ribozyme against exon E1alpha of the murine pl6INK4a transcript. Stable expression of the ribozyme in murine erythroleukemia (MEL) cells reduced the endogenous pl6INK4a protein by more than 70% and significantly accelerated cell cycle progression. The specificity and efficiency of our new ribozyme suggest its possible application in elucidating the role of p16INK4a in fundamental biological processes including homeostatic tissue renewal, protection against oncogenic transformation, and cellular senescence.