Department of Pathology, Microbiology and Immunology, Vanderbilt University Medical Center, Nashville, TN 37232, USA.
Cell Death Differ. 2012 Jul;19(7):1220-7. doi: 10.1038/cdd.2012.1. Epub 2012 Feb 3.
Although the Myc transcription factor has been shown necessary for the oncogenic function of Ras, the contribution of Ras pathway signaling to the oncogenic function of Myc remains unresolved. We report the novel findings that Myc alone induced Ras/Mapk pathway signaling, and increased signaling following growth factor stimulation. Deletion of the scaffold protein kinase suppressor of Ras 1 (Ksr1) attenuated signaling through the Ras/Mapk pathway, including activation following Myc induction. B cells that lacked Ksr1 exhibited reduced proliferation and increased cytokine deprivation-induced apoptosis. Overexpression of Myc rescued the proliferation defect of Ksr1-null B cells, but loss of Ksr1 increased sensitivity of B cells to Myc-induced apoptosis. Notably, there was a significant delay in lymphoma development in Ksr1-null mice overexpressing Myc in B cells (Eμ-myc transgenic mice). There was an elevated frequency of p53 inactivation, indicative of increased selective pressure to bypass the p53 tumor suppressor pathway, in Ksr1-null Eμ-myc lymphomas. Therefore, loss of Ksr1 inhibits Ras/Mapk pathway signaling leading to increased Myc-induced B-cell apoptosis, and this results in reduced B-cell transformation and lymphoma development. Our data indicate that suppression of Myc-induced Ras/Mapk pathway signaling significantly impairs Myc oncogenic function. These results fill a significant gap in knowledge about Myc and should open new avenues of therapeutic intervention for Myc-overexpressing malignancies.
虽然 Myc 转录因子已被证明对 Ras 的致癌功能是必需的,但 Ras 通路信号对 Myc 的致癌功能的贡献仍未解决。我们报告了一个新的发现,即 Myc 单独诱导 Ras/Mapk 通路信号,并增加了生长因子刺激后的信号。支架蛋白激酶抑制剂 Ras 1(Ksr1)的缺失减弱了 Ras/Mapk 通路的信号,包括 Myc 诱导后的激活。缺乏 Ksr1 的 B 细胞表现出增殖减少和细胞因子剥夺诱导的凋亡增加。Myc 的过表达挽救了 Ksr1 缺失 B 细胞的增殖缺陷,但 Ksr1 的缺失增加了 B 细胞对 Myc 诱导的凋亡的敏感性。值得注意的是,在过表达 Myc 的 Ksr1 缺失小鼠(Eμ-myc 转基因小鼠)中,淋巴瘤的发展明显延迟。在 Ksr1 缺失的 Eμ-myc 淋巴瘤中,p53 失活的频率升高,表明增加了绕过 p53 肿瘤抑制途径的选择性压力。因此,Ksr1 的缺失抑制 Ras/Mapk 通路信号,导致 Myc 诱导的 B 细胞凋亡增加,从而减少 B 细胞转化和淋巴瘤的发展。我们的数据表明,抑制 Myc 诱导的 Ras/Mapk 通路信号显著损害了 Myc 的致癌功能。这些结果填补了对 Myc 的知识的重要空白,应该为 Myc 过表达的恶性肿瘤开辟新的治疗干预途径。