Nuclear trafficking of EGFR by Vps34 represses Arf expression to promote lung tumor cell survival.

Epidermal growth factor receptor (EGFR) is a cell surface receptor that has an essential role in cell proliferation and survival, and overexpression of EGFR is a common feature of human cancers. In Non-small-cell lung cancer (NSCLC), activating mutations of EGFR have also been described. We recently showed that mutant EGFR-L858R inhibits the expression of the p14ARF tumor-suppressor protein to promote cell survival. In this study, we defined the molecular bases by which EGFR controls Arf expression. Using various lung tumor models, we showed that EGF stimulation inhibits Arf transcription by a mechanism involving the nuclear transport and recruitment of EGFR to the Arf promoter. We unraveled the vesicular trafficking protein Vps34 as a mediator of EGFR nuclear trafficking and showed that its neutralization prevents the accumulation of EGFR to the Arf promoter in response to ligand activation. Finally, in lung tumor cells that carry mutant EGFR-L858R, we demonstrated that inhibition of Vps34 using small interfering RNA restrains nuclear EGFR location and restores Arf expression leading to apoptosis. These findings identify the Arf tumor suppressor as a new transcriptional target of nuclear EGFR and highlight Vps34 as an important regulator of the nuclear EGFR/Arf survival pathway. As a whole, they provide a mechanistic explanation to the inverse correlation between nuclear expression of EGFR and overall survival in NSCLC patients.

p14(ARF) inhibits the growth of lung adenocarcinoma cells harbouring an EGFR L858R mutation by activating a STAT3-dependent pro-apoptotic signalling pathway.

Epidermal growth factor receptor (EGFR) stimulates proliferative and survival signals. Activating mutations of EGFR are involved in the aetiology and maintenance of the malignant phenotype of lung tumours. We previously described the frequent association of these mutations with the decreased expression of the p14(ARF) tumour suppressor, another common feature of lung cancer. Based on these data, we postulated that p14(ARF) could protect cells against untimely or excessive mitotic signals induced by mutant EGFR. In this study, we demonstrate that p14(ARF) promotes apoptosis in lung tumour cells harbouring the EGFR L858R mutation through the accumulation of phosphorylated signal transducer and activator of transcription 3 (STAT3) on Tyr 705 residue, which leads to Bcl-2 downregulation. Using siRNA against PTP-RT, the phosphatase that specifically targets Tyr 705 residue, we show that accumulation of pSTAT3-Tyr705 promotes EGFR L858R mutant cell death, thereby confirming the existence of a STAT3-dependent pro-apoptotic pathway in these cells. Finally, we show that the expression of the EGFR L858R mutant represses p14(ARF) expression and inhibits STAT3/Bcl-2 signalling. These results identify a novel link between the p14(ARF) and EGFR pathways and suggest that EGFR L858R counteracts the pro-apoptotic function of p14(ARF) by downregulating its expression to promote carcinogenesis.

Cytoprotective effects of Gypsophila saponins towards isolated rat hepatocytes.

Saponins are glycosides widely distributed in the plant kingdom and are found in many foods. The hepatoprotective potential of glucuronogypsogenin (GG) and gypsoside (GY) towards isolated rat hepatocytes treated by three toxic models used at sub-lethal doses: galactosamine (5 x 10(-3) M), CCl4 (5 x 10(-4) M) and erythromycin (5 x 10(-4) M) was investigated. Two schedules were carried out corresponding to curative or preventive treatment. No protection was observed on hepatocytes treated with GY before or after addition of the toxicants. In contrast, a protective action was detected when hepatocytes were pretreated with GG (5 x 10(-5) M) as probe, by the normalisation of LDH leakage and ATP content. It depends on the toxicant: the cytoprotective spectrum is 5 x 10(-5) to 5 x 10(-7) M with galactosamine; 5 x 10(-5) to 5 x 10(-6) M with CCl4; and around 5 x 10(-5) M with erythromycin. Taking into account the importance of LDH as an indicator of membrane damages, GG was assumed to interact with membrane hepatocyte.