Combination of mTOR Inhibitors Augments Potency while Activating PI3K Signaling in Pituitary Tumors.

BACKGROUND: Despite the success in treating some cancers, the efficacy of the mTOR inhibitors rapalogs as anti-cancer therapeutics has been limited. AIMS: We undertook to examine the effects of Torin1, a second-generation selective ATP-competitive mTOR inhibitor, in non-functioning pituitary tumor cells. During characterization of the molecular mechanisms that mediate Torin1 actions, there seemed to be a rationale for combining it with rapalogs. METHODS: Proliferation assays, flow cytometry and Western blotting were applied to assess the effects of Torin1, RAD001 and their combination on an MtT/E pituitary cell line and human-derived non-functioning pituitary tumor cells. RESULTS: Combined long treatments of Torin1 and RAD001 induced a pronounced reduction in cell growth and viability of both MtT/E pituitary cells and human-derived non-functioning pituitary tumor cells, superior to each drug alone. This was remarkable in the 10 nM combination and was reflected in a triggered decrease of cyclin D3 and p21/CIP expression. Interestingly, Akt-Thr308 and SIN1-Thr86 phosphorylations were robustly elevated in the combined treatment, accompanied by a reduction in PTEN expression. Phosphorylation of p70S6K was abolished in all individual and combined treatments. Akt-Ser473 phosphorylation, induced by RAD001, was reduced by the combined treatment to the same extent as when treated by Torin1 alone. CONCLUSIONS: Our results suggest that the differential signaling mechanisms induced by these compounds eventually converge to lead to an efficient blockade of the PI3K/Akt/mTOR pathway in pituitary tumor cells and may facilitate a reduction in treatment dosage.

IGF1 induces cell proliferation in human pituitary tumors - functional blockade of IGF1 receptor as a novel therapeutic approach in non-functioning tumors.

Insulin-like growth factor (IGF1) and its receptor display potent proliferative and antiapoptotic activities and are considered key players in malignancy. The objective of the study was to explore the role of IGF1 and its downstream pathways in the proliferation of non-functioning pituitary tumor cells and to develop a targeted therapeutic approach for the treatment of these tumors. Cultures of human non-functioning pituitary adenomas and the non-secreting immortalized rat pituitary tumor cell line MtT/E were incubated with IGF1, IGF1 receptor inhibitor or both, and cell viability, proliferation and signaling were examined. Our results show that IGF1 elevated cell proliferation and enhanced cell cycle progression as well as the expression of cyclins D1 and D3. IGF1 also induced the phosphorylation of ERK, Akt and p70S6K. On the other hand, the selective IGF1R inhibitor NVP-AEW541 abrogated IGF1-induced cell proliferation as well as IGF1 receptor phosphorylation and downstream signaling.