Yogesh Chutake, Michele Mayo, Dapeng Chen, Bradley Enerson, Patricia Cho, Jessica Filiatrault, Crystal Brown, Michael Placke, Madison Adams, Rahul Karnik, James Shaw, Yatao Shi, Dirk Walther, Alice McDonald, Frank Qi, Phillip Liu, Joseph D. Growney, Kirti Sharma, Duncan Walker, Stefanie Schalm, Juliet Williams, and Matthew Weiss
Background: The murine double minute 2 (MDM2) oncoprotein is a key E3 ubiquitin ligase that degrades the tumor-suppressor p53. Reversible SMIs of the MDM2/p53 interaction have been developed to stabilize p53 and to induce apoptosis in wildtype p53 tumors. However, MDM2 SMIs induce a p53/MDM2 feedback loop, resulting in upregulation of MDM2 protein levels and p53 pathway inhibition, thus drastically limiting their biological activity and clinical application. MDM2 targeted protein degradation suppresses p53-dependent MDM2 protein feedback upregulation and is therefore expected to lead to a superior response compared to SMIs. Objectives: We discovered KT-253, a novel, highly potent heterobifunctional MDM2 degrader. We characterized the activity and molecular mechanism of KT-253 in wildtype p53 cell lines and xenograft models and demonstrated that KT-253 has superior activity compared to SMIs in these models. Methods: We characterized KT-253 in MDM2-dependent cell lines in vitro, as well as in in vivo mouse AML and ALL xenograft models. Methods included in vitro cell proliferation and apoptosis assays, gene expression profiling, and in vivo pharmacological studies. Results: KT-253 selectively depletes MDM2 protein levels with sub-nanomolar cellular potency. We demonstrated in the Acute Lymphoblastic Leukemia (ALL) cell line RS4;11 that KT-253 can overcome the p53-dependent upregulation of MDM2 protein levels as seen for reversible SMIs. In addition, even brief exposures to KT-253 in these cells could more potently stabilize p53 compared to SMIs, leading to apoptosis mediated through p53 target genes. The superior MDM2/p53 pathway inhibition and induction of apoptosis by KT-253 translates into a >200-fold stronger cell growth inhibition, compared to SMIs, across a panel of solid and hematological tumor cell lines. Using mouse xenograft models, we established an intermittent dosing schedule that drives anti-tumor efficacy. Importantly, a single dose of KT-253 at 1 mg/kg resulted in sustained tumor regression in the RS4;11 mouse xenograft model. In this model, KT-253 exposures correlated with induction of apoptotic p53 target genes and tumor growth inhibition. In addition, weekly administration of KT-253 significantly prolonged the survival in a disseminated Acute Myeloid Leukemia (AML) model when compared to vehicle treated animals. Conclusions: In summary, KT-253, our development candidate, has significantly improved potency relative to reversible SMIs leading to potent in vitro and in vivo efficacy that is superior to all clinically active agents. In addition, an intermittent dosing schedule of the highly potent KT-253 degrader can induce rapid apoptosis in MDM2-dependent cancer cells potentially leading to improved efficacy and safety profile. Citation Format: Yogesh Chutake, Michele Mayo, Dapeng Chen, Bradley Enerson, Patricia Cho, Jessica Filiatrault, Crystal Brown, Michael Placke, Madison Adams, Rahul Karnik, James Shaw, Yatao Shi, Dirk Walther, Alice McDonald, Frank Qi, Phillip Liu, Joseph D. Growney, Kirti Sharma, Duncan Walker, Stefanie Schalm, Juliet Williams, Matthew Weiss. KT-253, a highly potent and selective heterobifunctional MDM2 degrader for the treatment of wildtype p53 tumors with superior potency and differentiated biological activity compared to small molecule inhibitors (SMI) [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3934.