Abstract
Abstract Various genes in RAS-RAF and PI3K pathways are frequently mutated in a wide variety of solid tumors. Concurrent double mutations are also observed quite often in a broad range of tumor types. Combined inhibition of both pathways has been shown to impart greater efficacy in multiple tumor models in animals. In order to simultaneously block these pathways, we have discovered and characterized several molecules showing dual inhibition of the RAS-RAF and PI3K pathways. ASN003 has been identified as a lead compound with potent and highly selective inhibitory activity against B-RAF, PI3K and mTOR kinases (low nM IC50). Within the PI3K family, ASN003 has high selectivity for inhibition of PI3Kα and PI3Kδ over PI3Kβ. In cell-based mechanistic studies, ASN003 did not increase phospho-ERK levels in the KRAS mutant cell line HCT116 and thus may not cause paradoxical activation of RAS/MAPK pathway in tumors. Consistent with its dual inhibition profile, ASN003 showed strong antiproliferative activity in cell lines with B-RAF and PI3K pathway mutations as well as vemurafenib (B-RAF inhibitor)-resistant cell lines. ASN003 suppressed the phosphorylation of downstream targets of B-RAF, PI3K and mTOR in pharmacodynamic studies in multiple tumor models, indicating appropriate target engagement. In in vivo efficacy studies, ASN003 showed regression in a B-RAFV600E mutant A375 xenograft model and also caused significant tumor growth inhibition in RKO and A2058 tumor models, which harbor mutations in PIK3CA or PTEN genes, respectively, in addition to the B-RAF V600E mutation. Dual targeting of the B-RAF and PI3K pathways with ASN003 has the potential to treat and/or prevent the acquired resistance to selective B-RAF inhibitors, and may also treat a broader patient population and provide greater efficacy and survival benefit than selective B-RAF inhibitors or selective PI3K pathway inhibitors alone. Due to the lack of paradoxical activation, treatment with ASN003 may not cause skin toxicities seen with pure B-RAF inhibitors. ASN003 is currently in preclinical development and is expected to enter Phase I/II clinical trials by early 2016. Citation Format: Scott K. Thompson, Mahaboobi Jaleel, Vijay Kumar Nyavanandi, Murali Ramachandra, Hosahalli Subramanya, Aravind Basavaraju, Vaibhav Sihorkar, Roger A. Smith, Niranjan Rao, Sandeep Gupta, Sanjeeva P. Reddy. ASN003, a unique B-RAF inhibitor with additional selective activity against PI3K and mTOR kinases, shows strong antitumor activity in multiple xenograft models. [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference: Molecular Targets and Cancer Therapeutics; 2015 Nov 5-9; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2015;14(12 Suppl 2):Abstract nr B100.
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