Bonnevaux Hélène, Lemaitre Olivier, Vincent Loic, Levit Mikhail N, Windenberger Fanny, Halley Frank, Delorme Cécile, Lengauer Christoph, Garcia-Echeverria Carlos, Virone-Oddos Angela
Sanofi Oncology Drug Discovery, Sanofi Research and Development, Vitry-sur-Seine, France.
Sanofi Oncology Drug Discovery, Sanofi Research and Development, Cambridge, Massachusetts.
Mol Cancer Ther. 2016 Jul;15(7):1460-71. doi: 10.1158/1535-7163.MCT-15-0496. Epub 2016 May 12.
Class IA PI3K pathway activation resulting from PTEN deficiency has been associated with lack of sensitivity of melanoma to BRAF kinase inhibitors. Although previous studies have shown synergistic activity when pan-PI3K inhibitors were combined with MAPK inhibitors in the treatment of melanoma exhibiting concurrent genetic abnormalities, overlapping adverse events in patients limit optimal dosing and clinical application. With the aim of specifically targeting PTEN-deficient cancers and minimizing the potential for on-target toxicity when inhibiting multiple PI3K isoforms, we developed a program to discover PI3Kβ-selective kinase inhibitors and identified SAR260301 as a potent PI3Kβ-selective, orally available compound, which is now in clinical development. Herein, we provide a detailed biological characterization of SAR260301, and show that this compound has outstanding biochemical and cellular selectivity for the PI3Kβ isoform versus the α, δ, and γ isoforms and a large panel of protein and lipid kinases. We demonstrate that SAR260301 blocks PI3K pathway signaling preferentially in PTEN-deficient human tumor models, and has synergistic antitumor activity when combined with vemurafenib (BRAF inhibitor) or selumetinib (MEK inhibitor) in PTEN-deficient/BRAF-mutated human melanoma tumor models. Combination treatments were very well tolerated, suggesting the potential for a superior safety profile at optimal dosing using selective compounds to inhibit multiple signaling pathways. Together, these experiments provide a preclinical proof-of-concept for safely combining inhibitors of PI3Kβ and BRAF or MEK kinase modulators to improve antitumor activity in PTEN-deficient/BRAF-mutant melanoma, and support the evaluation of SAR260301-based combinations in clinical studies. Mol Cancer Ther; 15(7); 1460-71. ©2016 AACR.
因PTEN缺陷导致的IA类PI3K通路激活与黑色素瘤对BRAF激酶抑制剂缺乏敏感性有关。尽管先前的研究表明,在治疗表现出同时存在基因异常的黑色素瘤时,泛PI3K抑制剂与MAPK抑制剂联合使用具有协同活性,但患者中重叠的不良事件限制了最佳剂量和临床应用。为了特异性靶向PTEN缺陷型癌症,并在抑制多种PI3K亚型时将靶点毒性的可能性降至最低,我们开展了一个项目来发现PI3Kβ选择性激酶抑制剂,并确定SAR260301为一种有效的PI3Kβ选择性、口服可用的化合物,该化合物目前正在进行临床开发。在此,我们提供了SAR260301详细的生物学特性,并表明该化合物对PI3Kβ亚型相对于α、δ和γ亚型以及大量蛋白质和脂质激酶具有出色的生化和细胞选择性。我们证明,SAR260301在PTEN缺陷型人类肿瘤模型中优先阻断PI3K通路信号传导,并且在PTEN缺陷型/BRAF突变型人类黑色素瘤肿瘤模型中与维莫非尼(BRAF抑制剂)或司美替尼(MEK抑制剂)联合使用时具有协同抗肿瘤活性。联合治疗的耐受性非常好,这表明使用选择性化合物抑制多种信号通路时,在最佳剂量下可能具有更好的安全性。总之,这些实验为安全联合PI3Kβ抑制剂与BRAF或MEK激酶调节剂以提高PTEN缺陷型/BRAF突变型黑色素瘤的抗肿瘤活性提供了临床前概念验证,并支持在临床研究中评估基于SAR260301的联合用药。《分子癌症治疗》;15(7);1460 - 71。©2016美国癌症研究协会
