BRCA1在人乳腺癌细胞MCF-7辐射抗性中作用的初步研究

<正>MCF-7细胞是被广泛用以研究乳腺癌的一株模式细胞,该细胞拥有野生型p53基因,但其辐射敏感性与p53基因表达状态无关,这提示可能存在其他基因参与调节其辐

ATM与BRCA1的双杂合性通过影响若干通路增加肿瘤发生风险

<正>目的:流行病学统计数据表明杂合性与肿瘤发生相关。ATM和BRCA1都是DNA损伤修复通路中的多功能基因,其单杂合性对于肿瘤易感性的影响已见报道,但双杂合

Potentiality of phosphorylation of BRCA1 at Ser 1524 to activate p21 in response to X-ray irradiation

The breast and ovarian cancer susceptibility gene BRCA1 encodes a nuclear phosphoprotein, which functions as a tumor suppressor gene. Many studies suggested that multiple functions of BRCA1 may contribute to its tumor suppressor activity, including roles in cell cycle checkpoints, apoptosis and transcription. It is postulated that phosphorylation of BRCA1 is an important means by which its cellular functions are regulated. In this study, we employed phospho-Ser-specific antibody recognizing Ser-1524 to study BRCA1 phosphorylation under conditions of DNA damage and the effects of phosphorylation on BRCA1 functions. The results showed that 10 Gy X-ray treatment significantly induced phosphorylation of Ser-1524 but not total BRCA1 protein levels. The expression both of p53 and p21 increased after irradiation, but ionizing radiation (IR) -induced activation of p21 was prior to that of p53. The percentages of G0/G1 phase remarkably increased after IR. In addition, no detectable levels of 89 kDa fragment of PARP, a marker of apoptotic cells, were observed. Data implied that IR-induced phosphorylation of BRCA1 at Ser-1524 might activatep21 protein, by which BRCA1 regulated cell cycle, but play no role in apoptosis.

Radiosensitivity to high energy iron ions is influenced by heterozygosity for Atm, Rad9 and Brca1

Loss of function of DNA repair genes has been implicated in the development of many types of cancer. In the last several years, heterozygosity leading to haploinsufficiency for proteins involved in DNA repair was shown to play a role in genomic instability and carcinogenesis after DNA damage is induced, for example by ionizing radiation. Since the effect of heterozygosity for one gene is relatively small, we hypothesize that predisposition to cancer could be a result of the additive effect of heterozygosity for two or more genes critical to pathways that control DNA damage signaling, repair or apoptosis. We investigated the role of heterozygosity for Aim, Rad9 and Brad on cell oncogenic transformation and cell survival induced by 1 GeV/n Fe-56 ions. Our results show that cells heterozygous for both Aim and Rad9 or A tin and Brca1 have high survival rates and are more sensitive to transformation by high energy iron ions when compared with wild-type controls or cells haploinsufficient for only one of these proteins. Since mutations or polymorphisms for similar genes exist in a small percentage of the human population, we have identified a radiosensitive sub-population. This finding has several implications. First, the existence of a radiosensitive sub-population may distort the shape of the dose response relationship. Second, it would not be ethical to put exceptionally radiosensitive individuals into a setting where they may potentially be exposed to substantial doses of radiation. (C) 2010 COSPAR. Published by Elsevier Ltd. All rights reserved.

Hemizygosity for Atm and Brca1 influence the balance between cell transformation and apoptosis

Background: In recent years data from both mouse models and human tumors suggest that loss of one allele of genes involved in DNA repair pathways may play a central role in genomic instability and carcinogenesis. Additionally several examples in mouse models confirmed that loss of one allele of two functionally related genes may have an additive effect on tumor development. To understand some of the mechanisms involved, we examined the role of monoallelic loss or Atm and Brca1 on cell transformation and apoptosis induced by radiation. Methods: Cell transformation and apoptosis were measured in mouse embryo fibroblasts (MEF) and thymocytes respectively. Combinations of wild type and hemizygous genotypes for ATM and BRCA1 were tested in various comparisons. Results: Haploinsufficiency of either ATM or BRCA1 resulted in an increase in the incidence of radiation-induced transformation of MEF and a corresponding decrease in the proportion of thymocytes dying an apoptotic death, compared with cells from wild-type animals. Combined haploinsufficiency for both genes resulted in an even larger effect on apoptosis. Conclusions: Under stress, the efficiency and capacity for DNA repair mediated by the ATM/BRCA1 cell signalling network depends on the expression levels of both proteins.

BRCA1 and its phosphorylation involved in caffeine-inhibitable event upstream of G2 checkpoint

Caffeine, which specifically inhibits ATM/ATR kinases, efficiently abrogates the ionizing radiation (IR)-induced G2 arrest and increases the sensitivity of various tumor cells to IR. Mechanisms for the effect of caffeine remain to be elucidated. As a target of ATM/ATR kinases, BRCA1 becomes activated and phosphorylated in response to IR. Thus, in this work, we investigated the possible role of BRCA1 in the effect of caffeine on G2 checkpoint and observed how BRCA1 phosphorylation was regulated in this process. For these purposes, the BRCA1 protein level and the phosphorylation states were analyzed by Western blotting by using an antibody against BRCA1 and phospho-specific antibodies against Ser-1423 and Ser-1524 residues in cells exposed to a combination of IR and caffeine. The results showed that caffeine down-regulated IR-induced BRCA1 expression and specifically abolished BRCA1 phosphorylation of Ser-1524, which was followed by an override of G2 arrest by caffeine. In addition, the ability of BRCA1 to transactivate p21 may be required for MCF-7 but not necessary for Hela response to caffeine. These data suggest that BRCA1 may be a potential target of caffeine. BRCA1 and its phosphorylation are most likely to be involved in the caffeine-inhibitable event upstream of G2 arrest.

BRCA1对人乳腺癌细胞辐射敏感性的影响及其作用机制研究

目的：研究肿瘤抑制子BRCA1在人乳腺癌细胞辐射抗性中的作用，并探讨其作用机制。材料和方法：利用实时细胞分析系统检测辐射对细胞存活的影响；流式细胞术检测辐射对细胞周期分布的影响；RT-PCR检测辐射导致的BRCA1、Bax和Bcl-2在 mRNA水平变化；Western blot方法检测辐射诱导的蛋白表达水平的变化； In-cell western定量检测辐射引起的蛋白表达水平的变化； AO/EB染色法检测辐射导致的细胞死亡情况。结果：第一，分别用1Gy和4Gy x射线和碳离子束辐照人乳腺癌细胞MCF-7，研究MCF-7对不同LET射线的辐射敏感性差异。结果显示，x射线组1Gy辐射导致细胞存活显著下降，4Gy辐射对细胞存活影响不明显；而碳离子束辐射对细胞生长无抑制作用。与x射线组比较，碳离子辐射诱导了更低的亚“G1”期细胞百分数和更显著的G2期阻滞现象。同时碳离子束辐射诱导BRCA1磷酸化水平和p21表达上调，Bax表达下调。以上结果表明MCF-7对辐射的耐受性与凋亡功能相关，而BRCA1 Ser-1524磷酸化作用可能参与细胞周期和凋亡的信号调控。第二，研究BRCA1在咖啡因诱导的辐射增敏效应中作用。当2mM咖啡因联合4Gy的x射线或碳离子束辐射处理MCF-7细胞后，观察到细胞存活显著下降，辐射诱导的G2期阻滞被废除，BRCA1和p21蛋白表达被抑制，而p53表达水平无明显变化。结果表明咖啡因诱导的MCF-7细胞的辐射增敏作用可能与G2期阻滞被废除相关，BRCA1可能参与该过程的信号调节。第三， 利用BRCA1功能正常的MCF-7细胞和BRCA1功能缺失的HCC1937细胞进一步研究BRCA1对细胞辐射敏感性的影响。辐射显著抑制了HCC1937细胞存活，但对MCF-7细胞存活无明显影响。与HCC1937细胞相比，辐射诱导MCF-7细胞发生显著的G2期阻滞。辐射诱导HCC1937细胞发生晚期凋亡，而MCF-7细胞则多发生早期凋亡，且MCF-7细胞凋亡数明显少于HCC1937细胞。RT-PCR检测结果显示，辐射增强了MCF-7细胞中BRCA1的mRNA 水平，抑制了Bax的mRNA 水平，对Bcl-2的影响不明显；而HCC1937细胞中Bax的mRNA表达水平则被增强。同时辐射诱导MCF-7细胞中BRCA1和p21蛋白表达增强，Bax表达下降，Bcl-2水平略有增高。而HCC1937细胞Bax表达水平增强，但p21和Bcl-2的表达水平则检测不到。这些结果表明，正常的BRCA1功能对Bcl-2的转录表达是必须的，BRCA1通过上调p21水平，下调Bax/Bcl-2影响细胞的辐射敏感性。结论： BRCA1在人乳腺癌细胞的辐射抗性发生中发挥重要作用，BRCA1通过上调p21水平诱导G2期阻滞，下调Bax/Bcl-2抑制凋亡信号，使得细胞对辐射诱导的凋亡产生抗性，最终导致细胞对辐射产生耐受性

potential mechanisms involved in resistant phenotype of MCF-7breast carcinoma cells to ionizing radiation induced apoptosis

In the present study, we investigated the mechanisms of apoptosis resistance and the roles of the phosphorylation of BRCA1, p21, the Bax/Bcl-2 protein ratio and cell cycle arrest in IR-induced apoptosis in MCF-7 cells. X-irradiation, in particular at low dose (1 Gy), but not carbon ion irradiation, had a significant antiproliferative effect on the growth of MCF-7 cells. 1 Gy X-irradiation resulted in G1 and G2 phase arrest, but 4 Gy induced a significant G1 block. In contrast, carbon ion irradiation resulted in a significant accumulation in the G2 phase. Concomitant with the phosphorylation of H2AX induced by DNA damage,carbon ion irradiation resulted in an approximately 1.9–2.8-fold increase in the phosphorylation of BRCA1 on serine residue 1524, significantly greater than that detected for X-irradiation. Carbon ion irradiation caused a dramatic increase in p21 expression and drastic decrease in Bax expression compared with X-irradiation. The data implicated that phosphorylation of BRCA1 on serine residue 1524 might,at least partially, induce p21 expression but repress Bax expression. Together, our results suggested that the phosphorylation of BRCA1 at Ser-1524 might contribute to the G2 phase arrest and might be an upstream signal involved in preventing apoptosis signal via upregulation of p21 and downregulation of the Bax/Bcl-2 ratio.

电离辐射后不同杂合基因在肿瘤发生中的作用及分子机理

目的检验基因杂合导致的染色单体功能不全在肿瘤发生中的作用。方法将ATM杂合鼠与BRCA1杂合鼠杂交获得四种基因型的同胎小鼠或胚胎成纤维细胞(野生型、ATM单杂合型、BRCA1单杂合型和ATM/BRCA1双杂合型),经γ-射线照射后,通过形态特征识别转化细胞克隆、流式细胞法测定胸腺细胞亚群分布和成纤维细胞周期变化、细胞松弛素B阻断法分析微核形成、免疫荧光染色法统计γH2AX foci数。结果相同剂量的射线照射后,四种基因型细胞反应不同;野生型细胞转化率最低、凋亡水平最高。相反,ATM/BRCA1双杂合型细胞转化率最高、凋亡水平最低;两种单杂合型细胞的细胞转化率和凋亡水平居中。四种细胞的微核诱导都与剂量呈线性相关,但线性拟合得到的直线斜率不同,野生型细胞的斜率最小,单杂合型细胞次之,双杂合型细胞最大。四种基因型细胞的细胞周期在辐照后都呈现G_2期阻滞,但与野生型细胞相比,ATM单杂合细胞延迟逾越周期阻滞,BRCA1单杂合细胞则提前逾越,双杂合型细胞的周期变化曲线与野生型细胞一致。0.5Gyγ射线辐照在种细胞中诱导的γH2AX foci数一样,但0.2Gyγ射线辐照诱导的γH2AX foci数则不相同,野生型细胞中最多,两种单杂合型细胞次之,双杂合型细胞中最少。结论基因杂合与肿瘤发生存在相关性,其导致细胞在外源刺激条件下基因表达量不足,从而影响损伤识别、细胞凋亡、周期调控等,致使相对较多的损伤未经修复即传递给子细胞,最终导致细胞转化、肿瘤发生。

DNA交联损伤修复与范可尼贫血症通路

由于各种内源和外在的因素,DNA会受到各种损伤,不过生物体已经进化出了一套保守的DNA修复系统,对损伤的DNA进行修复,确保基因组的稳定性及完整性。交联损伤是一种常见的DNA损伤,其修复过程相对复杂,主要是通过范可尼贫血症(Fanconi anemia,FA)通路来实现。FA是一种呈现基因组不稳定性的遗传综合征,其内在的病因就是FA通路的失活,因此不能有效修复交联损伤,导致DNA复制异常。

12C6+束和Mitomycin C 诱导的DNA损伤效应

本文旨在分别研究重离子束及MMC在诱导细胞的DNA损伤效应中一些具体的分子机制，为治疗的进行以及相关辅助药物的开发提供理论依据。本文探索的重点有两个，第一个是重离子束辐射诱导的DNA损伤效应及p53在其中的激活，第二个是MMC诱导的DNA损伤效应及p53和BRCA1、H2AX等分子在其中的角色。 1. 12C6+离子束诱导HeLa细胞DNA损伤效应为了研究HeLa细胞经过12C6+ 束辐照之后的DNA损伤效应，及这个过程中p53激活的分子机制。我们运用中性单细胞电泳技术，检测了HeLa细胞经过4Gy 12C6+ 束辐照0h、3h、6h和12h之后DNA的损伤情况，以及0.5Gy、1Gy、2Gy和4Gy 12C6+ 束辐照0h后的DNA损伤情况。同时运用细胞生长实时监测仪监测了HeLa细胞在经过0Gy、0.5Gy和1Gy 12C6+ 束辐照之后的生长变化，并运用AO/EB双染检测了辐照24小时后的凋亡情况。另外，利用8mmol/L的caffeine（抑制ATM和ATR）和20μmol/L的wortmannin（抑制ATM和DNA-PK）处理HeLa细胞后再进行1Gy 12C6+ 束辐照，通过western blot检测p53的表达。结果显示，12C6+ 束辐照可造成HeLa细胞的DNA损伤，损伤随剂量升高而升高但随时间降低；并诱导HeLa细胞发生凋亡；而且辐照后p53表达升高，但经过caffeine或者wortmannin预先处理的细胞p53均没有显著升高。我们的结论是：12C6+ 束辐照可造成HeLa细胞的DNA损伤并诱导损伤修复及凋亡等效应，损伤效应相关的分子p53被激活，并且激活依赖于ATM。 2. MMC诱导的DNA损伤效应在这一部分研究中，首先，我们利用与上面相同的研究方法，探讨了p53在MMC诱导的DNA损伤效应中的激活情况，结果显示，MMC诱导的DNA损伤效应并不依赖于p53。另外，我们还探讨了， BRCA1在FANCD2的γ-H2AX依赖性转移中的作用。MMC可造成DNA的ICL（interstrand cross-link）损伤，ICL可通过FA(Fanconi Anemia)通路进行修复。FANCD2是FA通路的核心分子，在DNA产生ICL时被各种分子修饰然后转移到损伤部分，这个过程的涉及到ATR、γ-H2AX及BRCA1等，本文试图探讨BRCA1在其中的作用方式。研究中，我们监测了不同处理（包括对照、caffeine（可抑制ATR）、MMC及MMC ＋caffeine）的HCC1937(BRCA1缺陷型)和MCF7（BRCA1野生型）细胞的生长；并用Western blot检测MMC处理之后HCC1937细胞γ-H2AX的表达情况。结果表明，MMC和caffeine均可以抑制HCC1937的生长，但caffeine和MMC+caffeine的抑制效果是一样的；MMC和caffeine均可以抑制MCF7的生长，且MMC+caffeine处理比仅进行caffeine处理的抑制作用强；MMC处理之后，HCC1937的γ-H2AX表达显著升高。我们的结论是，在FANCD2的γ-H2AX依赖性转移中，H2AX的磷酸化并不依赖于BRCA1，不过，BRCA1和ATR应该参与一个相同的分子事件，可能是FANCD2的磷酸化。这个有待进一步的实验验证

Aberrant expression of X-linked genes RbAp46, Rsk4, and Cldn2 in breast cancer

The consequence of activation status or gain/loss of an X-chromosome in terms of the expression of tumor suppressor genes or oncogenes in breast cancer has not been clearly addressed. In this study, we investigated the activation status of the X-chromosomes in a panel of human breast cancer cell lines, human breast carcinoma, and adjacent mammary tissues and a panel of murine mammary epithelial sublines ranging from low to high invasive potentials. Results show that most human breast cancer cell lines were homozygous, but both benign cell lines were heterozygous for highly polymorphic X-loci (IDS and G6PD). On the other hand, 60% of human breast carcinoma cases were heterozygous for either IDS or G6PD markers. Investigation of the activation status of heterozygous cell lines revealed the presence of only one active X-chromosome, whereas most heterozygous human breast carcinoma cases had two active X-chromosomes. Furthermore, we determined whether or not an additional active X-chromosome affects expression levels of tumor suppressor genes and oncogenes. Reverse transcription-PCR data show high expression of putative tumor suppressor genes Rsk4 and RbAp46 in 47% and 79% of breast carcinoma cases, respectively, whereas Cldn2 was down-regulated in 52% of breast cancer cases compared with normal adjacent tissues. Consistent with mRNA expression, immunostaining for these proteins also showed a similar pattern. In conclusion, our data suggest that high expression of RbAp46 is likely to have a role in the development or progression of human breast cancer. The activation status of the X-chromosome may influence the expression levels of X-linked oncogenes or tumor suppressor genes.