Johnathan Alexander Mclean

Discovery of LY2457546: a multi-targeted anti-angiogenic kinase inhibitor with a novel spectrum of activity and exquisite potency in the acute myelogenous leukemia-Flt-3-internal tandem duplication mutant human tumor xenograft model

SummaryLY2457546 is a potent and orally bioavailable inhibitor of multiple receptor tyrosine kinases involved in angiogenic and tumorigenic signalling. In biochemical and cellular assays, LY2457546 demonstrates potent activity against targets that include VEGFR2 (KDR), PDGFRβ, FLT-3, Tie-2 and members of the Eph family of receptors. With activities against both Tie2 and Eph receptors, LY2457546 possesses an activity profile that distinguishes it from multikinase inhibitors. When compared head to head with sunitinib, LY2457546 was more potent for inhibition of endothelial tube formation in an in vitro angiogenesis co-culture model with an intermittent treatment design. In vivo, LY2457546 inhibited VEGF-driven autophosphorylation of lung KDR in the mouse and rat in a dose and concentration dependent manner. LY2457546 was well tolerated and exhibited efficacy in a 13762 syngeneic rat mammary tumor model in both once and twice daily continuous dosing schedules and in mouse human tumor xenograft models of lung, colon, and prostate origin. Additionally, LY2457546 caused complete regression of well-established tumors in an acute myelogenous leukemia (AML) FLT3-ITD mutant xenograft tumor model. The observed efficacy that was displayed by LY2457546 in the AML FLT3-ITD mutant tumor model was superior to sunitinib when both were evaluated using equivalent doses normalized to in vivo inhibition of pKDR in mouse lung. LY2457546 was well tolerated in non-clinical toxicology studies conducted in rats and dogs. The majority of the toxicities observed were similar to those observed with other multi-targeted anti-angiogenic kinase inhibitors (MAKs) and included bone marrow hypocellularity, hair and skin depigmentation, cartilage dysplasia and lymphoid organ degeneration and necrosis. Thus, the unique spectrum of target activity, potent in vivo anti-tumor efficacy in a variety of rodent and human solid tumor models, exquisite potency against a clinically relevant model of AML, and non-clinical safety profile justify the advancement of LY2457546 into clinical testing.

Abstract 3231: Identifying high quality, potent and selective pyrimidinylthienopyrrolone inhibitors of ERK1/2 kinase: LY3214996

The ERK/MAPK pathway plays a central role in the regulation of critical cellular processes and is activated in more than 30% of human cancers. While targeting upstream nodes with RAF and MEK inhibitors has proven effective clinically, resistance frequently develops through reactivation of the pathway. ERK inhibitors have the potential to address resistance caused by ERK reactivation. Herein, a potent, selective small molecule ERK1/2 inhibitor is described. LY3214996 possesses an optimal balance of potency (hERK1 IC50 5 nM, hERK2 IC50 5nM, pRSK IC50 0.43 µM), solubility (FaSSIF solubility at pH 6.5 0.133 µM), PK properties (dog, AUCoral 23800 nM*hr, CL 12.1 mL/min/kg, bioavailability 75.4%), IVTI (TED50 =16 mg/kg pRSK1) and demonstrated significant in vivo efficacy in several human cancer xenograft models. LY3214996 is currently undergoing early clinical evaluation. Citation Format: Gaiying Zhao, William T. McMillen, Shufen Cai, Baohui Zhao, Matthew Whitesell, Wenjuan Wu, Karen Huss, Bryan Anderson, Xiu-Juan Yuan, Susan Jaken, Lisa Kindler, Robert S. Flack, Denis McCann, Brian Mathes, Andrew J. Dropsey, Jennie Walgren, Eunice Yuen, Jason Manro, Xueqian Gong, Guillermo Cortez, Johnathan McLean, Michael J. Rodriguez, Ramon V. Tiu, Shripad V. Bhagwat, Sajan Joseph. Identifying high quality, potent and selective pyrimidinylthienopyrrolone inhibitors of ERK1/2 kinase: LY3214996 [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 3231. doi:10.1158/1538-7445.AM2017-3231