Abstract
Pre-mRNA splicing is indispensable for eukaryotic gene expression. Splicing inhibition causes cell cycle arrest and cell death, which are the reasons of potent anti-tumor activity of splicing inhibitors. Here, we found that truncated proteins are involved in cell cycle arrest and cell death upon splicing inhibition. We analyzed pre-mRNAs accumulated in the cytoplasm where translation occurs, and found that a truncated form of the p27 CDK inhibitor, named p27*, is translated from pre-mRNA and accumulated in G2 arrested cells. Overexpression of p27* caused G2 phase arrest through inhibiting CDK-cyclin complexes. Conversely, knockout of p27* accelerated resumption of cell proliferation after washout of splicing inhibitor. Interestingly, p27* was resistant to proteasomal degradation. We propose that cells produce truncated proteins with different nature to the original proteins via pre-mRNA translation only under splicing deficient conditions to response to the splicing deficient conditions.
Competing Interest Statement
The authors have declared no competing interest.