Venkatanarayan Avinashnarayan, Raulji Payal, Norton William, Flores Elsa R
a Department of Molecular and Cellular Oncology , The University of Texas M.D. Anderson Cancer Center , Houston , TX , USA.
b Department of Translational Molecular Pathology , The University of Texas M.D. Anderson Cancer Center , Houston , TX , USA.
Cell Cycle. 2016;15(2):164-71. doi: 10.1080/15384101.2015.1121333.
TP53 is highly mutated in human cancers, thus targeting this tumor suppressor pathway is highly desirable and will impact many cancer patients. (1,2) Therapeutic strategies to reactivate the p53-pathway have been challenging, (3,4) and no effective treatment exists. (5) We utilized the p53-family members, p63 and p73, which are not frequently mutated in cancer, to treat p53-defective cancers. The N-terminal splice variants of p63 and p73 are denoted as the TA and ΔN isoforms. We recently demonstrated that deletion of either ΔNp63 or ΔNp73 in p53-deficient mouse tumors results in tumor regression mediated by metabolic programming. Using this strategy, we identified pramlintide, a synthetic analog of amylin, as an effective treatment for p53 deficient and mutant tumors. Here, we show the utility of using pramlintide, as a potential cancer preventive option for p53-deficient tumors in mouse models. Additionally, we found that in vivo inhibition of both ΔNp63 and ΔNp73 in combination accelerates tumor regression and increases survival of p53-deficient mice. We report that inhibition of both ΔNp63 and ΔNp73 in combination results in upregulation of 3 key metabolic regulators, IAPP, GLS2, and TIGAR resulting in an increase in apoptosis and tumor regression in ΔNp63/ΔNp73/p53 deficient thymic lymphomas. These data highlight the value of generating inhibitors that will simultaneously target ΔNp63 and ΔNp73 to treat cancer patients with alterations in p53.
TP53在人类癌症中高度突变,因此靶向这条肿瘤抑制途径非常值得期待,且将惠及许多癌症患者。(1,2)重新激活p53途径的治疗策略一直具有挑战性,(3,4)并且尚无有效的治疗方法。(5)我们利用在癌症中不常发生突变的p53家族成员p63和p73来治疗p53缺陷型癌症。p63和p73的N端剪接变体被称为TA和ΔN亚型。我们最近证明,在p53缺陷的小鼠肿瘤中删除ΔNp63或ΔNp73会导致由代谢重编程介导的肿瘤消退。利用这一策略,我们确定了胰淀素的合成类似物普兰林肽是治疗p53缺陷型和突变型肿瘤的有效药物。在此,我们展示了在小鼠模型中使用普兰林肽作为p53缺陷型肿瘤潜在癌症预防药物的效用。此外,我们发现联合体内抑制ΔNp63和ΔNp73可加速肿瘤消退并提高p53缺陷小鼠的存活率。我们报告称,联合抑制ΔNp63和ΔNp73会导致3种关键代谢调节因子IAPP、GLS2和TIGAR上调,从而导致ΔNp63/ΔNp73/p53缺陷型胸腺淋巴瘤的细胞凋亡增加和肿瘤消退。这些数据凸显了开发同时靶向ΔNp63和ΔNp73的抑制剂以治疗p53发生改变的癌症患者的价值。