In the absence of cellular poly (A) binding protein, the glycolytic enzyme GAPDH translocated to the cell nucleus and activated the GAPDH mediated apoptotic pathway by enhancing acetylation and serine 46 phosphorylation of p53

The cytoplasmic poly (A) binding protein (PABP) interacts with 3′ poly (A) tract of eukaryotic mRNA and is important for both translation and stability of mRNA. Previously, we have shown that depletion of PABP by siRNA prevents protein synthesis and consequently leads to cell death through apoptosis. In the present investigation, we studied the mechanism of cell apoptosis. We show that in the absence of PABP, the glycolytic enzyme GAPDH translocated to the cell nucleus and activated the GAPDH mediated apoptotic pathway by enhancing acetylation and serine 46 phosphorylation of p53. As a result, p53 translocated to the mitochondria to initiate Bax mediated apoptosis.

► PABP knock down and cell apoptosis. ► Nuclear translocation of GAPDH in PABP depleted cells. ► Role of p53 in apoptosis of PABP depleted cells. ► Bax translocation and cytochrome C release and caspase 3 activation following PABP depletion. ► Association of p53 with Bcl2 and Bax.