Cdk2 activity is dispensable for triggering replicon initiation after transient hypoxia in T24 cells.

We examined whether the fast release of replicon initiation after sudden O2 recovery of hypoxically incubated mammalian cells depends on kinase activity of Cdk2. We used a system based on starved/refed T24 cells elaborated previously for such investigations [van Betteraey-Nikoleit M, Eisele KH, Stabenow D and Probst H (2003) Eur J Biochem270, 3880-3890]. Cells subjected to hypoxia concurrently with refeeding accumulate the G1 DNA content within 5-6 h. In this state they are ready to perform, within 1-2 min after O2 recovery, a burst of replicon initiations that marks the start of a synchronous S-phase. We found that Cdk2 binds to the chromatin fraction within 4-6 h after refeeding with fresh medium, irrespective of whether the cells were incubated normoxically or hypoxically. However, inhibition of Cdk2 by olomoucine, roscovitine or the Cdk2/cyclin inhibitory peptide II had no influence on the synchronous burst of replicon initiations. Cdc6 and pRb, possible targets of Cdk2 phosphorylation, behaved differentially. Inhibition did not affect phosphorylation of Cdc6 after reoxygenation, whilst chromatin bound pRb remained hypophosphorylated beyond the initiation burst. Thus, neither Cdk2 activity, though present at the end of the hypoxic period, nor pRb phosphorylation are necessary for releasing the burst of replicon initiations upon oxygen recovery. Consequentially, Cdk2 dependent phosphorylation(s) cannot be a critical trigger of replicon initiation in response to reoxygenation after several hours of hypoxia, at least in the T24 cells studied.