Abstract PR08: AKT mutant allele-specific activation dictates pharmacologic sensitivities

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Abstract The objective of this study is to explore the biochemical characteristics and therapeutic sensitivity profiles of novel, non-E17K, less frequent AKT1 mutations, and thereby expand the biomarker of sensitivity to AKT inhibition in molecularly defined cancer patients. AKT is a critical signaling node that translates phosphoinositide 3-kinase (PI3K) pathway stimulation into diverse cellular effects. Gain-of-function AKT1 mutations arise in diverse human cancers, of which E17K is the most common. Presence of AKT1 E17K mutation renders these tumors susceptible to AKT inhibition. Nevertheless, the long tail of potentially activating mutations in AKT is largely uncharacterized, thereby limiting our ability to act clinically in prospectively sequenced advanced cancer patients. We performed a population-scale candidate driver mutation discovery analysis in AKT1, AKT2 and AKT3 in a cohort of 41,075 retrospectively and prospectively sequenced primary and metastatic cancers and explored both their functional and biologic impact as well as their therapeutic sensitivity. Our results demonstrated that some, but not all, of the identified AKT missense mutations activated PI3K signaling in a growth factor-independent manner, and sensitized tumor cells to diverse AKT inhibitors. By contrast, we discovered a different class of small in-frame paralogous AKT duplication mutants that induced distinctive structural changes, leading to a far greater degree of membrane affinity, AKT activation, pathway dependence, and hypersensitivity to ATP-competitive AKT inhibitors, while conferring resistance to allosteric AKT inhibitors. Leveraging a co-clinical trial framework, we are now enrolling patients on the basis of these mutations in a basket study involving AKT alterations. One such case was that of a castration-resistant metastatic prostate cancer patient who harbored AKT2 duplication mutant, and subsequently responded to AKT inhibition. Collectively, our data indicate that the degree and mechanism of activation of oncogenic AKT mutants vary, thereby dictating allele-specific pharmacologic sensitivities to AKT inhibition. This abstract is also being presented as Poster B20. Citation Format: Tripti Shrestha Bhattarai, Tambudzai Shamu, Swati Patel, Alexander Gorelick, Matthew T. Chang, Elena I. Gavrila, JianJong Gao, Mark T.A. Donoghue, Paul S. Gao, Tara Soumerai, Wassim Abida, Lilian M. Smyth, David M. Hyman, David B. Solit, Barry S. Taylor. AKT mutant allele-specific activation dictates pharmacologic sensitivities [abstract]. In: Proceedings of the AACR Special Conference on Targeting PI3K/mTOR Signaling; 2018 Nov 30-Dec 8; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Res 2020;18(10_Suppl):Abstract nr PR08.