Study of Ras-Mediated Apoptosis

Ras介导的细胞凋亡的研究

• 批准号: 8852561
• 负责人: CHANGYAN CHEN
• 金额: $ 24.18万
• 依托单位: NORTHEASTERN UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2004
• 资助国家: 美国
• 起止时间: 2004-08-01 至 2016-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8852561
• 关键词: Affect; Antineoplastic Agents; Apoptosis; Apoptotic; Attention; Biological Process; Cancer Cell Growth; Cell Survival; Cells; Chemicals; Complex; DNA Binding; Data; Equilibrium; Family; Gene Expression; Goals; HDAC1 gene; Health; Homeostasis; Human; In Vitro; Induction of Apoptosis; MAPK14 gene; MAPK8 gene; Malignant Neoplasms; Mediating; Molecular; Molecular Target; Monomeric GTP-Binding Proteins; Mutate; Mutation; NADP; NADPH Oxidase; Normal Cell; Oncogenes; Oncogenic; Outcome; Oxidation-Reduction; PMAIP1 gene; Pathway interactions; Pharmaceutical Preparations; Phosphorylation; Phosphorylation Site; Phosphotransferases; Predisposition; Process; Production; Protein Isoforms; Proteins; Refractory; Regulation; Research; Role; Signal Pathway; Signal Transduction; Stress; System; TNFRSF11B gene; Testing; Thioredoxin; Tissues; Toxic effect; Up-Regulation; base; cancer cell; design; in vivo; inhibitor/antagonist; insight; neoplastic cell; novel; ras Oncogene; research study; response; treatment strategy; tumor

DESCRIPTION (provided by applicant): One attractive paradigm of anticancer strategies is to target oncogenes for sensitization of tumor cells to apoptosis. The rationale is that onco-proteins rely on other factors to maintain homeostasis or promote cancer cell survival. Disruption of one of coordinating proteins would trigger an apoptotic crisis in cancer cells. Oncogenic Ras has been discovered in about 30-40% of human cancers. However, inhibitors targeting mutated Ras have proved not to be effective clinically. Recently, the focus has been on finding signaling pathways that are downstream of or parallel with Ras, and are essential for cancer cells to survive. In the effort to identify the apoptotic partners of mutated Ras, studies showed that loss of PKC, together with mutated Ras, are synthetically lethal in many types of tumors. Recently, we made the novel observation that loss of different PKC isoforms differentially sensitized cells expressing mutated ras to apoptosis. In particular, we identified that co-suppression of PKC?/? were critical for the induction of apoptosis in cancer cells harboring mutated ras, in which PI3K/Akt function downstream of Ras to mobilized two signaling pathways: one was via upregulating ROS and ER stress-mediated UPR for switching on the apoptotic machinery; and another one was through activating PKC?, resulting in p73 phosphorylation and PUMA/NOXA upregulation. In this renewal application, we will investigate the molecular mechanisms of our novel observation of how Ras, upon loss of PKC??/?, differentially utilizes its downstream effector pathways to selectively sensitize tumor cells to apoptosis, with less or no toxicity to normal cells or surrounding tissues. We will determine how ROS and PKC??/p73 pathways are being redirected by aberrant Ras/PI3K/Akt to activate cell death program after co-suppression of PKC??/?. Thus, the hypothesis to be tested is that upon co-knockdown of PKC??/?, PI3K/Akt are key players in the induction of Ras-mediated apoptosis, which is via perturbing redox homeostasis as well as through activating PKC??/ p73-mediated apoptotic network. Accordingly, 4 Specific Aims are formed. Aim 1 will study the mechanisms by which ROS is upregulated in cells expressing aberrant ras or PI3K/Akt upon co- suppression of PKC??/?. Aim 2 will determine the mechanisms by which ROS induces ER-stress/UPR activation in cells expressing aberrant ras or PI3K/Akt upon co-suppression of PKC??/?. In Aim 3, we will determine the role of p73 in the sensitization of cells expressing aberrant ras or PI3K/Akt to apoptosis after co- knockdown of PKC??/?. In Aim 4, we will determine the pro-apoptotic effect in cells expressing aberrant ras or PI3K/Akt in vitro and in vivo after co-suppression of PKC??/?. The outcomes of our research will reveal molecules involved in this synthetic lethal interaction between Ras mutations and loss of PKC??/?, which will provide the potential information for designing more effective drugs to treat human cancers harboring aberrant ras or PI3K/Akt.

描述（由申请人提供）：一种有吸引力的抗癌策略范例是靶向癌基因，使肿瘤细胞对凋亡敏感。基本原理是癌蛋白 依赖其他因素来维持体内平衡或促进癌细胞存活。协调蛋白之一的破坏将引发癌细胞的凋亡危机。致癌性Ras已在约30-40%的人类癌症中发现。然而，靶向突变Ras的抑制剂已被证明在临床上无效。最近，研究的重点是寻找Ras下游或与Ras平行的信号通路，这些通路是癌细胞生存所必需的。在鉴定突变Ras的凋亡伴侣的努力中，研究表明，PKC的缺失与突变Ras一起在许多类型的肿瘤中是合成致死的。最近，我们提出了新的观察，不同的PKC亚型的损失差异敏感的细胞表达突变ras凋亡。特别是，我们发现，共抑制PKC？/？在ras突变的癌细胞中，PI 3 K/Akt对诱导凋亡至关重要，其中PI 3 K/Akt在Ras下游发挥作用，动员两条信号通路：一条是通过上调ROS和ER应激介导的UPR来开启凋亡机制;另一条是通过激活PKC？，从而导致p73磷酸化和p53/NOXA上调。在这个更新申请中，我们将研究我们新观察到的Ras如何在PKC？？/？丢失后，差异性地利用其下游效应物途径选择性地使肿瘤细胞对凋亡敏感，而对正常细胞或周围组织具有较小毒性或无毒性。我们将确定如何ROS和PKC？？/ p73通路被异常的Ras/PI 3 K/Akt重定向，在PKC？？/？共同抑制后激活细胞死亡程序。因此，待检验的假设是，在共敲低PKC β/β后，PI 3 K/Akt是Ras介导的细胞凋亡诱导的关键参与者，这是通过扰乱氧化还原稳态以及通过激活PKC？？/ p73介导的凋亡网络。因此，形成了四个具体目标。目的1研究PKC β/β共抑制时，ras或PI 3 K/Akt表达异常的细胞中ROS上调的机制。目的2将确定ROS诱导表达异常ras或PI 3 K/Akt的细胞中ER应激/UPR激活的机制，这些细胞在PKC？？/？共同抑制后。在目标3中，我们将确定p73在表达异常ras或PI 3 K/Akt的细胞在共敲低PKC β/β后对凋亡的敏感性中的作用。在目的4中，我们将在体外和体内确定共抑制PKC β/β后表达异常ras或PI 3 K/Akt的细胞的促凋亡作用。我们的研究结果将揭示参与Ras突变和PKC？？/？丢失之间这种合成致死相互作用的分子，这将为设计更有效的药物来治疗具有异常ras或PI 3 K/Akt的人类癌症提供潜在信息。