Matthew O. Duffey

Design and Optimization of Potent and Orally Bioavailable Tetrahydronaphthalene Raf Inhibitors

Inhibition of mutant B-Raf signaling, through either direct inhibition of the enzyme or inhibition of MEK, the direct substrate of Raf, has been demonstrated preclinically to inhibit tumor growth. Very recently, treatment of B-Raf mutant melanoma patients with a selective B-Raf inhibitor has resulted in promising preliminary evidence of antitumor activity. This article describes the design and optimization of tetrahydronaphthalene-derived compounds as potent inhibitors of the Raf pathway in vitro and in vivo. These compounds possess good pharmacokinetic properties in rodents and inhibit B-Raf mutant tumor growth in mouse xenograft models.

Discovery and optimization of N-acyl and N-aroylpyrazolines as B-Raf kinase inhibitors.

A high throughput screen identified N-aroylpyrazoline 1 as a selective inhibitor of the V600E mutant of B-Raf kinase. Parallel synthesis of acyl, aroyl, and sulfonyl derivatives led to the identification of several potent inhibitors in both enzymatic and cellular (pERK) assays such as compound 42.

Discovery of a Potent and Orally Bioavailable Benzolactam-Derived Inhibitor of Polo-Like Kinase 1 (MLN0905).

This article describes the discovery of a series of potent inhibitors of Polo-like kinase 1 (PLK1). Optimization of this benzolactam-derived chemical series produced an orally bioavailable inhibitor of PLK1 (12c, MLN0905). In vivo pharmacokinetic-pharmacodynamic experiments demonstrated prolonged mitotic arrest after oral administration of 12c to tumor bearing nude mice. A subsequent efficacy study in nude mice achieved tumor growth inhibition or regression in a human colon tumor (HT29) xenograft model.

Discovery and optimization of pyrazoline compounds as B-Raf inhibitors.

The discovery of novel pyrazoline derivatives as B-Raf (V600E) inhibitors is described in this report. Chemical modification of the pyrazoline scaffold led to the development of SAR and identified potent and selective inhibitors of B-Raf (V600E). Determination of the pharmacokinetic properties of selected inhibitors is also reported.

Abstract 3573: A small molecule PLK1 inhibitor, MLN0905, yields broad anti-tumor activity in human xenograft tumor models, and synergizes with taxane therapy

PLK1 is a serine/threonine mitotic kinase that plays a key role in mitotic cell cycle progression, and its over-expression has been linked to poor patient prognosis. We have discovered a potent and selective small molecule inhibitor of PLK1, MLN0905, which reduces cell viability and inhibits cell proliferation in a broad range of human tumor cells. We explored the pharmacokinetic, pharmacodynamic, and anti-tumor properties on MLN0905 in human xenograft models grown in rodents. MLN0905 rapidly and extensively distributed to xenograft tumor with a high tumor-to-plasma exposure ratio. In human xenograft tumor tissue, MLN0905 modulates the pharmacodynamic biomarker phospho-Histone H3 (in a dose dependent fashion), enabling us to track pathway modulation in vivo. MLN0905 demonstrated robust anti-tumor activity (partial and complete responses) in a variety of solid and hematological human xenograft models, including cancers derived from colon (HCT-116, HT29), NSCLC (Calu-6), Ovarian (SKOV3), and Lymphoma (OCI-LY19, OCI-LY10, and the primary lymphoma PHTX-22L). Significant anti-tumor activity was observed when dosing on either a continuous (daily) or intermittent schedule, underscoring the dosing flexibility with this compound. In the SKOV3 and Calu-6 xenograft models, MLN0905 yielded a synergistic anti-tumor response when combined with the standard of care therapy Taxane. This is the first report of a PLK1 inhibitor synergizing with taxane therapy in vivo. In summary, our findings indicate MLN0905 has good drug-like pharmacokinetic properties, modulates the biomarker phospho-Histone H3, and yields significant anti-tumor activity in multiple xenograft models. These preclinical data support further evaluating MLN0905 as a novel anti-cancer agent. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 102nd Annual Meeting of the American Association for Cancer Research; 2011 Apr 2-6; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2011;71(8 Suppl):Abstract nr 3573. doi:10.1158/1538-7445.AM2011-3573