Abstract
YB-1 is a multifunctional protein overexpressed in many types of cancer. It is a crucial oncoprotein that regulates cancer cell progression and proliferation. Ubiquitously expressed in human cells, YB-1 protein functions are strictly dependent on its subcellular localization. In the cytoplasm, where YB-1 is primarily localized, it regulates mRNA translation and stability. However, in response to stress stimuli and activation of PI3K and RSK signaling, YB-1 moves to the nucleus acting as a prosurvival factor. YB-1 is reported to regulate many cellular signaling pathways in different types of malignancies. Furthermore, several observations also suggest that YB-1 is a sensor of oxidative stress and DNA damage. Here we show that YB-1 reduces PTEN intracellular levels thus leading to PI3K/Akt pathway activation. Remarkably, PTEN reduction mediated by YB-1 overexpression can be observed in human immortalized keratinocytes and HEK293T cells and cannot be reversed by proteasome inhibition. Real-time PCR data indicate that YB-1 silencing up-regulates the PTEN mRNA level. Collectively, these observations indicate that YB-1 negatively controls PTEN at the transcript level and its overexpression could confer survival and proliferative advantage to PTEN proficient cancer cells.
Highlights
In response to genotoxic stress, Y-box binding protein 1 (YB-1) translocates from the cytoplasm to the nucleus [8], where it acts as a transcriptional regulator to overcome DNA damage-dependent cell cycle arrest and promote cell survival [9]
We hypothesized that YB-1 could control PTEN protein level
We decided to analyze the effect of YB-1 downregulation on PTEN protein intracellular level
Summary
YB-1 is a DNA- and RNA-binding protein and transcription factor with an evolutionarily ancient and conserved cold shock domain [1]. In response to genotoxic stress, YB-1 translocates from the cytoplasm to the nucleus [8], where it acts as a transcriptional regulator to overcome DNA damage-dependent cell cycle arrest and promote cell survival [9]. Overstimulated Akt activity in cancer cells [10] induces YB-1 phosphorylation at Ser102 and nuclear accumulation without changing the total amount of the protein. This results in reduced DNA repair in cancer cells after irradiation [3]
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