New p53-based anti-cancer therapeutic strategies

Thep53 gene is frequently mutated in human tumours and therefore an important target for therapeutic intervention. Several p53-based strategies for treatment of cancer are currently under development.p53 gene therapy has resulted in tumour regression in patients with lung cancer. A mutant adenovirus can obliterate tumour cells carrying mutant p53 or lacking p53, but is unable to replicate in normal cells. Furthermore, current studies suggest that reactivation of mutant p53 proteins in tumours using small p53-activating molecules may initiate p53-dependent apoptosis and thus eliminate the tumour.     

Cancer‐specific mutations in p53 induce the translation of Δ160p53 promoting tumorigenesis

Wild‐type p53 functions as a tumour suppressor while mutant p53 possesses oncogenic potential. Until now it remains unclear how a single mutation can transform p53 into a functionally distinct gene harbouring a new set of original cellular roles. Here we show that the most common p53 cancer mutants express a larger number and higher levels of shorter p53 protein isoforms that are translated from the mutated full‐length p53 mRNA. Cells expressing mutant p53 exhibit “gain‐of‐function” cancer phenotypes, such as enhanced cell survival, proliferation, invasion and adhesion, altered mammary tissue architecture and invasive cell structures. Interestingly, Δ160p53‐overexpressing cells behave in a similar manner. In contrast, an exogenous or endogenous mutant p53 that fails to express Δ160p53 due to specific mutations or antisense knock‐down loses pro‐oncogenic potential. Our data support a model in which “gain‐of‐function” phenotypes induced by p53 mutations depend on the shorter p53 isoforms. As a conserved wild‐type isoform, Δ160p53 has evolved during millions of years. We thus provide a rational explanation for the origin of the tumour‐promoting functions of p53 mutations.     

Detection of circulating tumor cells in the cerebrospinal fluid: A new frontier

Comment on: Patel AS, et al. Oncotarget 2011; 2:752-760     

靶向突变p53聚集体的肿瘤治疗研究进展

突变p53 (mutant p53, Mut-53)聚集体的形成是p53突变后使原本包裹在其疏水核心内部的黏附序列暴露,黏附序列迅速成核组装,形成无定形的原纤维. Mut-p53聚集体不仅可以以显性负效应(dominant-negative effect,DN)的方式使野生型p53 (wild type p53,Wt-p53)失活,还表现出功能获得(gain-of-function,GOF)特性,促进肿瘤的发生和发展.在卵巢癌、结肠癌、前列腺癌等多种肿瘤细胞中均发现了Mut-p53的异常聚集,其与肿瘤的转移、耐药和预后不良具有显著的相关性.因此,p53聚集是逆转化疗耐药及肿瘤治疗的潜在靶点.设计和发现靶向Mut-p53聚集体的小分子化合物,抑制p53疏水核心内部黏附序列的暴露,恢复p53的功能从而发挥抗肿瘤作用成为了当今研究热点.本文就p53聚集体对肿瘤发生发展的影响及目前靶向Mut-p53聚集体的研究策略进行了综述.     

靶向突变p53蛋白的抗肿瘤药物

p53蛋白是人体内十分重要的肿瘤抑制因子,通过调节细胞周期阻滞、诱导细胞凋亡等作用发挥肿瘤抑制功能。突变后的p53蛋白不仅具有显性负性效应（dominant negative effect,DN）抑制野生型p53蛋白功能,而且还通过功能获得性效应（gain of function,GOF）调节细胞代谢、侵袭、迁移等方式促进肿瘤的发生。p53蛋白在超过50%的肿瘤组织中发生突变,是肿瘤细胞区别于正常细胞的一个特异性药物靶点。因此,针对突变p53蛋白开发新型抗癌药物一直是研究的热点。长期以来,由于突变p53蛋白表面较为光滑,缺乏药物结合口袋,使其被认为是一个不可成药的靶点。随着高通量筛选技术的发展以及对突变p53蛋白结构的深入了解,许多靶向突变p53蛋白的小分子化合物被报道并在体外展现出较好的抗肿瘤活性,多款基于突变p53蛋白研发的化合物已经进入临床试验阶段。本文就靶向p53蛋白治疗肿瘤的直接和间接策略进行综述,重点针对突变p53蛋白重激活剂与降解突变p53蛋白的小分子化合物作用机制进行梳理,以期为后续开发靶向突变p53蛋白药物的创新提供帮助。     

Small-molecule CB002 restores p53 pathway signaling and represses colorectal cancer cell growth

Much effort is currently focused on the p53 pathway. p53 is a key tumor suppressor, which is mutated or lost in many human cancers. Restoration of the p53 pathway holds the potential to induce selective cell death in tumor cells without harming normal cells that have intact p53 pathways. Most tumor cells express mutated p53 or suppress p53 by overexpression of MDM2. In this study, a compound referred to as CB002 with one closely related compound from the Chembridge library were evaluated for tumor cytotoxicity without affecting normal cells by restoration of the p53 pathway. A decrease of mutant p53 protein expression, restoration of inactivated p53, or some activation of p73 are candidate mechanisms this agent could cause tumor cell apoptosis and growth arrest. We further show that CB002 activates p53 pathway signaling in part via p73 in p53 mutant cancer cell lines. However, it is important to note that we have not established a role for p73 in the anti-tumor effect of CB002 or R1. CB002 causes tumor cell death with synergistic effects with traditional chemotherapeutics CPT-11 and 5-FU.     

Structural distortion of p53 by the mutation R249S and its rescue by a designed peptide: implications for "mutant conformation"

Missense mutations in the DNA-binding core domain of the tumour suppressor protein p53 are frequent in cancer. Many of them result in loss of native structure. The mutation R249S is one of the six most common cancer-associated p53 mutations ("hot-spots"). As it is highly frequent in hepatocellular carcinoma, its rescue is an important therapeutic target. We have used NMR techniques to study the structural effects of the R249S mutation. The overall fold of the core domain is retained in R249S, and it does not take up a denatured "mutant conformation". However, the beta-sandwich had increased flexibility and, according to changes in chemical shift, there was local distortion throughout the DNA-binding interface. It is likely that the R249S mutation resulted in an ensemble of native and native-like conformations in a dynamic equilibrium. The peptide FL-CDB3 that was designed to rescue mutants of p53 by binding specifically to its native structure was found to revert the chemical shifts of R249S back towards the wild-type values and so reverse the structural effects of mutation. We discuss the implications for a rescue strategy and also for the analysis of antibody-binding data.     

Mutant p53R248Q downregulates oxidative phosphorylation and upregulates glycolysis under normoxia and hypoxia in human cervix cancer cells

Mutations in p53 are strongly associated with several highly malignant cancer phenotypes but its role in regulating energy metabolism has not been completely elucidated. The effect on glycolysis and oxidative phosphorylation (OxPhos) of mutant p53^R248Q overexpression in HeLa cells (HeLa-M) was analyzed and compared with cells overexpressing wild-type p53 (HeLa-H) and nontransfected cells containing negligible p53 levels (HeLa-L). p53 ^R248Q overexpression induced early cell detachment during in vitro growth; however, detached HeLa-M cells showed high viability, shorter generation time and significant diminution in the adhesion proteins E-cadherin and β-catenin versus HeLa-H and HeLa-L cells. Under normoxia, a lower growth rate of attached HeLa-M cells correlated with decreased levels of proliferating cell nuclear antigen (PCNA), peroxisome proliferator-activated receptor gamma coactivator 1-α (PGC-1α), adenosine monophosphate-activated protein kinase (AMPK), mitochondrial proteins (20–80%) and OxPhos flux (69 ± 12%). On the contrary, HeLa-M also showed increased contents of CDKN1A, nuclear factor κB (NF-κB), c-MYC, hypoxia-inducible factor 1-α (HIF-1α; 1–4 times), glycolytic HIF-1α targets (2–4 times), and glycolysis flux (2-fold) versus HeLa-H. In consequence, glycolysis provided ~70% of the cellular adenosine triphosphate (ATP) in HeLa-M cells under normoxia whereas, OxPhos predominated (65–82%) in HeLa-H and HeLa-L cells. Pifithrin-α, a specific p53 inhibitor, did not alter the p53 ^R248Q target protein contents and OxPhos and glycolytic fluxes, and a poor HIF-1α-p53 ^R248Q interaction was attained, in HeLa-M cells. These observations suggested that p53 ^R248Q deficiently interacted with pifithrin-α and HIF-1α. Therefore, lower mitochondrial biogenesis, deficient HIF-1α/mutant p53 interaction, and development of a pseudohypoxic state under normoxia were the apparent biochemical mechanisms underlying glycolysis activation and OxPhos downregulation in HeLa-M cells.     

用改进的差别显示法克隆R6大鼠细胞的癌相关基因

为了识别参与细胞癌变的基因,本文选择p53135-val-过表达正常细胞系R6#13-8及其自发转化癌变细胞系T2作为研究材料,在克隆差异表达基因的同时,建立了一种简单、快速的差异表达基因分离的方法,并已克隆到2个与细胞癌变相关的候选新基因。本文所得的实验结果表明这种方法实验步骤简单,避免使用同位素,RT-PCR扩增带的重复性好,能克隆到大于500bp的差异表达cDNA片段,差异表达的PCRcDNA片段假阳性率低,并可广泛适用于在两个或两个以上相对应真核细胞RNA群体中分离和克隆特异表达基因。研究结果还提示在R6#13-8自发转化为T2的过程中涉及多个基因的激活与失活,这两个细胞系之间存在明显的基因表达差异。     

突变p53功能研究新进展与个性化的肿瘤治疗新策略

p53是迄今为止研究最多的一种抑癌蛋白,最新研究仍在不断地揭示p53在调控机体代谢、生殖方面的新功能。同时,也揭示了不同p53突变蛋白的获得性新功能在肿瘤发生中的促进作用。这些研究对于了解p53突变的个性化新功能,寻找再激活野生型p53,校正突变p53的新途径奠定了基础,不同突变p53蛋白的个性化治疗将是未来肿瘤治疗的热点。文章综述了已发现的一些突变p53的获得性新功能,及针对不同的p53功能缺陷进行的p53蛋白功能再激活的策略:通过小分子或多肽再激活肿瘤细胞中的p53突变蛋白的野生型功能;通过重组的腺病毒在肿瘤细胞中表达野生型p53蛋白;通过抑制MDM2与p53的相互作用稳定野生型p53蛋白。对p53不同位点突变的深入研究可以帮助我们制定更合理的个性化治疗方案,寻求更有效的肿瘤治疗新途径。     

Direct involvement of p53 in the base excision repair pathway of the DNA repair machinery

The p53 tumor suppressor that plays a central role in the cellular response to genotoxic stress was suggested to be associated with the DNA repair machinery which mostly involves nucleotide excision repair (NER). In the present study we show for the first time that p53 is also directly involved in base excision repair (BER). These experiments were performed with p53 temperature-sensitive (ts) mutants that were previously studied in in vivo experimental models. We report here that p53 ts mutants can also acquire wild-type activity under in vitro conditions. Using ts mutants of murine and human origin, it was observed that cell extracts overexpressing p53 exhibited an augmented BER activity measured in an in vitro assay. Depletion of p53 from the nuclear extracts abolished this enhanced activity. Together, this suggests that p53 is involved in more than one DNA repair pathway.     

穿心莲内酯恢复突变型p53野生型功能的作用及机制研究

目的 p53是人体内重要的肿瘤抑制因子,但在人类肿瘤中因高频突变而失去抑癌功能。突变型p53 (mutant p53,mutp53)可促进肿瘤的发生、发展和转移。由于在肿瘤细胞中通常有较高表达,mutp53已成为区别于正常细胞的一个特异性抗肿瘤靶点。本研究旨在探索穿心莲内酯的抗肿瘤作用机制,为寻找靶向mutp53的抗肿瘤化合物提供理论依据。方法 构建可以快速筛选具有恢复mutp53下游转录因子的荧光素酶系统,观察穿心莲内酯对H1299-p53 R273H-PUMAluciferase和H1299-p53R175H-PUMA-luciferase细胞中PUMA基因的表达情况;采用免疫荧光实验,检测穿心莲内酯对HT29(R273H)和SK-BR-3 (R175H)细胞中mutp53的表达影响;采用免疫印迹实验进一步观察穿心莲内酯恢复了mutp53肿瘤细胞中p53下游靶蛋白PUMA、p21、Noxa的表达;随后采用MTT和流式细胞分析,检测穿心莲内酯对肿瘤细胞增殖和凋亡的影响;此外,还通过si RNA敲低Hsp70表达后,研究穿心莲内酯对mutp53下游基因的重激活作用。结果 穿心莲内酯可以...     

Re-oxygenation causes hypoxic tumor regression through restoration of p53 wild-type conformation and post-translational modifications

Hypoxic tumors are resistant to conventional therapies through indirect mechanisms such as the selection of resistant phenotype under chronic hypoxia. Hyperbaric oxygen (HBO) therapy has been shown to increase oxygen level and induce apoptosis in hypoxic tumor. However, it could produce significant adverse effects including oxygen toxic seizures and severe radiation tissue injury due to high pressure. We have shown that repeated oxygenation at 30% O₂ (1 atmospheres absolute) results in significant regression of MCF-7 tumor xenografts without any adverse effect. In MCF-7 cells, re-oxygenation showed an eightfold increase in cellular apoptosis. Both in hypoxic tumor and in hypoxic cells, that exclusively favor p53 to exist in mutant conformation, re-oxygenation restores p53 wild-type conformation. The oxygen-mediated rescue of mutant p53 followed by its trans-activation is responsible for the induction of p53-downstream apoptotic, cell-cycle arrest and DNA-repair genes. Further, p53 trans-activation may thus be due to its post-translational modifications as a result of re-oxygenation. We have thus concluded that oxygen therapy without pressure, as opposed to HBO therapy, may be ideal for hypoxic tumor regression, which functions through oxygen-mediated rescue of mutant p53 followed by induction of apoptosis.