Adnane Lila, Trail Pamela A, Taylor Ian, Wilhelm Scott M
Department of Cancer Research, Bayer Pharmaceutical Corp., West Haven, Connecticut, USA.
Methods Enzymol. 2006;407:597-612. doi: 10.1016/S0076-6879(05)07047-3.
Activating mutations in Ras and B-RAF were identified in several human cancers. In addition, several receptor tyrosine kinases, acting upstream of Ras, were found either mutated or overexpressed in human tumors. Because oncogenic activation of the Ras/RAF pathway may lead to a sustained proliferative signal resulting in tumor growth and progression, inhibition of this pathway represents an attractive approach for cancer drug discovery. A novel class of biaryl urea that inhibits C-RAF kinase was discovered using a combination of medicinal and combinatorial chemistry approaches. This effort culminated in the identification of the clinical candidate BAY 43-9006 (Sorafenib, Nexavar), which has recently been approved by the FDA for advanced renal cell carcinoma in phase III clinical trials. Sorafenib inhibited the kinase activity of both C-RAF and B-RAF (wild type and V600E mutant). It inhibited MEK and ERK phosphorylation in various cancer cell lines and tumor xenografts and exhibited potent oral antitumor activity in a broad spectrum of human tumor xenograft models. Further characterization of sorafenib revealed that this molecule was a multikinase inhibitor that targeted the vascular endothelial growth factor receptor family (VEGFR-2 and VEGFR-3) and platelet-derived growth factor receptor family (PDGFR-beta and Kit), which play key roles in tumor progression and angiogenesis. Thus, sorafenib may inhibit tumor growth by a dual mechanism, acting either directly on the tumor (through inhibition of Raf and Kit signaling) and/or on tumor angiogenesis (through inhibition of VEGFR and PDGFR signaling). In phase I and phase II clinical trials, sorafenib showed limited side effects and, more importantly, disease stabilization. This agent is currently being evaluated in phase III clinical trials in renal cell and hepatocellular carcinomas.
在多种人类癌症中均发现了Ras和B-RAF的激活突变。此外,在人类肿瘤中还发现,位于Ras上游的几种受体酪氨酸激酶存在突变或过表达。由于Ras/RAF通路的致癌激活可能导致持续的增殖信号,从而引发肿瘤生长和进展,因此抑制该通路成为癌症药物研发的一个有吸引力的方向。利用药物化学和组合化学方法相结合,发现了一类新型的抑制C-RAF激酶的联芳基脲。这项工作最终确定了临床候选药物BAY 43-9006(索拉非尼,商品名多吉美),该药物最近已被美国食品药品监督管理局(FDA)批准用于III期临床试验中的晚期肾细胞癌。索拉非尼抑制C-RAF和B-RAF(野生型和V600E突变体)的激酶活性。它在多种癌细胞系和肿瘤异种移植物中抑制MEK和ERK磷酸化,并在广泛的人类肿瘤异种移植模型中表现出强大的口服抗肿瘤活性。对索拉非尼的进一步研究表明,该分子是一种多激酶抑制剂,可靶向血管内皮生长因子受体家族(VEGFR-2和VEGFR-3)以及血小板衍生生长因子受体家族(PDGFR-β和Kit),这些受体在肿瘤进展和血管生成中起关键作用。因此,索拉非尼可能通过双重机制抑制肿瘤生长,既可以直接作用于肿瘤(通过抑制Raf和Kit信号传导),和/或作用于肿瘤血管生成(通过抑制VEGFR和PDGFR信号传导)。在I期和II期临床试验中,索拉非尼显示出有限的副作用,更重要的是,它能使病情稳定。目前,该药物正在肾细胞癌和肝细胞癌的III期临床试验中进行评估。
