Abstract C63: Biological characterization of GSK2126458, a novel and potent inhibitor of phosphoinositide 3-kinase and the mammalian target of rapamycin (mTOR)

The phosphoinositide 3‐kinase (PI3K) pathway is among the most commonly activated pathways in human cancer. The biological role of PI3K in growth and survival of cancer cells and the prevalence of activating mutations in human cancers are well documented and a significant proportion of tumors would be predicted to benefit from inhibition of this pathway. Here we report on the characterization of the pan‐PI3K pyridylsulfonamide inhibitor GSK2126458: a very potent (PI3K app K i = 19 pM), reversible, ATP‐competitive inhibitor of wild‐type PI3K and the ‘hotspot’ activating mutants of p110 found in human cancer. GSK2126458 demonstrated good selectivity for the PI3K family of enzymes including the mTORC1 and mTORC2 complexes, when evaluated in a large panel of protein kinases. Consistent with potent PI3K enzyme inhibition, GSK2126458 decreased the cellular levels of phosphorylated AKT, p70 S6K , PRAS40 and ERK in a concentration and time dependent manner, the IC50 for pAKT in the HCC1954 breast carcinoma cell line was 2 nM. GSK2126458 induced the nuclear translocation of the FOXO3a transcription factor in a concentration dependent manner that mechanistically appeared bimodal. Growth inhibition was time and concentration dependent with a 3 day exposure resulting in a growth IC 50 (gIC 50 ) of 9 nM in HCC1954 cells with evidence of cell death. Cell death correlated with induction of caspase 3 and 7 activity suggesting apoptosis was the mechanism of cell death. GSK2126458 had a breadth of activity for potent cell growth inhibition and induction of cell death in a variety of human cancer cells. GSK2126458 demonstrated robust, dose dependent in vivo pharmacodynamic activity as measured by inhibition of phospho‐AKT in advanced BT474 breast cancer cell xenograft tumors. Inhibition of AKT phosphorylation was rapid and lasted for several hours after a single oral administration of GSK2126458. Transient increases in plasma insulin and blood glucose were observed. Evaluation of in vivo tumor growth effects of GSK2126458 in xenograft models demonstrated dose dependent tumor growth delay in several models of diverse tumor lineage and tumor regression in a breast cancer xenograft. The biological profile of GSK2126458 supports the clinical advancement of this compound and GSK2126458 has entered Phase I human clinical trials. Citation Information: Mol Cancer Ther 2009;8(12 Suppl):C63.