Assessment of DNA damage of Lewis lung carcinoma cells irradiated by carbon ions and X-rays using alkaline comet assay

DNA damage and cell reproductive death determined by alkaline comet and clonogenic survival assays were examined in Lewis lung carcinoma cells after exposure to 89.63 MeV/u carbon ion and 6 MV X-ray irradiations, respectively. Based on the survival data, Lewis lung carcinoma cells were verified to be more radiosensitive to the carbon ion beam than to the X-ray irradiation. The relative biological effectiveness (RBE) value, which was up to 1.77 at 10% survival level, showed that the DNA damage induced by the high-LET carbon ion beam was more remarkable than that induced by the low-LET X-ray irradiation. The dose response curves of '' Tail DNA (%)'' (TD) and "Olive tail moment" (OTM) for the carbon ion irradiation showed saturation beyond about 8 Gy. This behavior was not found in the X-ray curves. Additionally, the carbon ion beam produced a lower survival fraction at 2 Gy (SF2) value and a higher initial Olive tail moment 2 Gy (OTM2) than those for the X-ray irradiation. These results suggest that carbon ion beams having high-LET values produced more severe cell reproductive death and DNA damage in Lewis lung carcinoma cells in comparison with X-rays and comet assay might be an effective predictive test even combining with clonogenic assay to assess cellular radio sensitivity

Study on DNA Damage Induced by Neon Beam Irradiation in Saccharomyces Cerevisiae

Yeast strain Saccharornyces cerevisiae was irradiated with different doses of 85 MeV/u Ne-20(10+) to investigate DNA damage induced by heavy ion beam in eukaryotic microorganism. The survival rate, DNA double strand breaks (DSBs) and DNA polymorphic were tested after irradiation. The results showed that there were substantial differences in DNA between the control and irradiated samples. At the dose of 40 Cy, the yeast cell survival rate approached 50%, DNA double-strand breaks were barely detectable, and significant DNA polymorphism was observed. The alcohol dehydrogenase II gene was amplified and sequenced. It was observed that base changes in the mutant were mainly transversions of T-->G and T-->C. It can be concluded that heavy ion beam irradiation can lead to change in single gene and may be an effective way to induce mutation.

Determination of urinary oxidative DNA damage marker 8-hydroxy-2 '-deoxyguanosine and the association with cigarette smoking

8-hydroxy-2'-deoxyguanosine (8OHdG) has been widely used as a biomarker of oxidative DNA damage in both animal models and human studies. To evaluate the effect of cigarette smoking on oxidative stress, we studied the levels of urinary 8OHdG from smokers and non-smokers and investigated the association with cigarette smoking. The urinary 8OHdG concentrations were determinated by capillary electrophoresis with end-column amprometric detection (CE-AD) after a single-step solid phase extraction (SPE), and then quantitatively expressed as a function of creatinine excretion. To increase the concentration sensitivity, a dynamic pH junction was used and the focusing effect was obvious when using 30 mM phosphate (pH 6.50) as sample matrix. The limit of detection is 4.3 nM (signal-to-noise ratio S/N = 3). The relative standard deviation (R.S.D.) was 1.1% for peak current, and 2.3% for migration time. Based on the selected CE-AD method, it was found that the mean value of urinary 8OHdG levels in the smokers significantly higher than that in non-smokers (31.4 +/- 18.9 nM versus 14.4 +/- 7.6 nM, P = 0.0004; 23.5 +/- 21.3 mug g(-1) creatinine versus 12.6 +/- 13.2 mug g(-1) creatinine, P = 0.028). (C) 2004 Elsevier B.V. All rights reserved.

Study of urinary 8-hydroxydeoxyguanosine as a biomarker of oxidative DNA damage in diabetic nephropathy patients

Increased oxidative stress induced by hyperglycemia may contribute to the pathogenesis of diabetic complications. Urinary 8-hydroxydeoxyguanosine (8-OHdG) has been reported to serve as a sensitive biomarker of oxidative DNA damage and also of oxidative stress. This article studied oxidative DNA damage in patients with diabetic nephropathy and in healthy control subjects by urinary 8-OHdG evaluations. Contents of 8-OHdG in urine were analyzed by capillary electrophoresis with end-column amperometric detection (CE-AD) after a single-step solid-phase extraction (SPE). Levels of urinary 8-OHdG in diabetic nephropathy patients with macroalbuminuria was significant higher than in control subjects (5.72 +/- 6.89 mumol/mol creatinine versus 2.33 +/- 2.83 mumol/mol creatinine, P = 0.018). A significant difference of 24 h urinary 8-OHdG excretions exists between the patients with macroalbuminuria and the patients with nonnoalbuminuria (19.2 +/- 16.8 mug/24 h versus 8.1 +/- 1.7 mug/24 h, P = 0.015). There was a positive correlation between urinary excretion of 8-OHdG and glycosylated hemoglobin (HbA(1)c) (r = 0.287, P = 0.022). A weak correlation exists between the levels of 8-OHdG and triglyceride (r = 0.230, P = 0.074). However, the urinary 8-OHdG contents are not correlated with blood pressure and total cholesterol. The increased excretion of urinary 8-OHdG is seen as indicating an increased systemic level of oxidative DNA damage in diabetic nephropathy patients. (C) 2004 Elsevier B.V. All rights reserved.

Effect of ethanol extract of alga Laurencia supplementation on DNA oxidation and alkylation damage in mice

Laurencia terpenoid extract (LET) had been extracted from the red alga Laurencia tristicha. The study is to investigate the effects of LET supplementation on DNA oxidation and alkylation damages in mice. Forty healthy kunming mice weighing between 18g and 25g were randomly assigned into 4 groups, each consisting of ten animals. The mice were orally intubated respectively for 60 days with the designed concentrations of LET (25, 50, 100 mg/kg b.w.) for three exposed groups and salad oil (0.2 ml) for the blank group. Food and water were free for the animals. Mice in the blank and exposed groups were sacrificed after the last treatment and the blood of each animal was quickly taken for further experiments. The spontaneous and oxidized DNA damages of peripheral lymphocytes induced by H2O2 were analysed by SCGE. O-6-Methy-guanine (O-6-MeG) was measured by high performance capillary zone electrophoresis. There was no significantly difference in DNA spontaneous damage on peripheral lymphocytes of all the mice. The oxidative DNA damage in the 50 mg/Kg body weight supplement group are 286AU with the oxidation of 10 mu mol/L H2O2, significantly lower than the blank group 332AU (p<0.05). The contents of O-6-MeG in plasma in the 50mg/kg b.w. and 100mg/kg b.w. supplement group were 1.50 mu mol/L andl.88 mu mol/L, significantly lower than that of the blank group, which was 2.89 mu mol/L(p<0.05). The results from the present study indicated that the LET were rich in terpenoids and safety to be taken orally and it could improve antioxidative and decrease DNA damage effectively.

Combined effects of ultraviolet radiation and temperature on morphology, photosynthesis, and DNA of Arthrospira (Spirulina) platensis (Cyanophyta)

Natural levels of solar UVR were shown to break and alter the spiral structure of Arthrospira (Spirulina) platensis (Nordst.) Gomont during winter. However, this phenomenon was not observed during summer at temperatures of similar to 30 degrees C. Since little has been documented on the interactive effects of solar UV radiation (UVR; 280-400 nm) and temperature on cyanobacteria, the morphology, photosynthesis, and DNA damage of A. platensis were examined using two radiation treatments (PAR [400-700 nm] and PAB [PAR + UV-A + UV-B: 280-700]), three temperatures (15, 22, and 30 degrees C), and three biomass concentrations (100, 160, and 240 mg dwt [dry weight] . L-1). UVR caused a breakage of the spiral structure at 15 degrees C and 22 degrees C, but not at 30 degrees C. High PAR levels also induced a significant breakage at 15 degrees C and 22 degrees C, but only at low biomass densities, and to lesser extent when compared with the PAB treatment. A. platensis was able to alter its spiral structure by increasing helix tightness at the highest temperature tested. The photochemical efficiency was depressed to undetectable levels at 15 degrees C but was relatively high at 30 degrees C even under the treatment with UVR in 8 h. At 30 degrees C, UVR led to 93%-97% less DNA damage when compared with 15 degrees C after 8 h of exposure. UV-absorbing compounds were determined as negligible at all light and temperature combinations. The possible mechanisms for the temperature-dependent effects of UVR on this organism are discussed in this paper.

Melatonin modulates acute testicular damage induced by carbon ions in mice

The present study was performed to obtain evidence of the radioprotective function of melatonin at different administration levels on carbon ion-induced mouse testicular damage. Outbred Kun-Ming strain mice were divided into six groups, each composed of eight animals: control group, melatonin alone group, irradiation group and three melatonin plus irradiation-treated groups. An acute study was carried out to determine alterations in DNA-single strand break, cell apoptosis, and oxidative stress parameters as well as histopathology in mouse testis 24 h after whole-body irradiation with a single dose of 4 Gy Tie results showed that pre-treatment and post-treatment with high-dose melatonin (10 mg/kg) both significantly alleviated carbon ion-induced acute testicular damage, a greater radioprotective effect being observed in the pre-treatment group. On the other hand, low-dose melatonin (1 mg/kg) had a limited radioprotective effect on irradiation-induced degeneration and DNA lesions in mouse testis. Taken together, the data suggest that prophylactic treatment with a higher dose of melatonin is probably advisable to protect against the effects of heavy-ion irradiation.

Potential role of DNA-dependent protein kinase in cellular resistance to ionizing radiation

In this paper, we study the ability of DNA-PK-deficient (M059J) and -proficient (M059K) cells to undergo the rate of cellular proliferation, cell cycle distribution and apoptosis after 10 Gy X-ray irradiation, and the role of DNA-PK in radiosensitivity. The results showed that M059J cells exhibited hyper-radiosensitivity compared with M059K cells. A strong G2 phase arrest was observed in M059J cells post irradiation. Significant accumulation in the G2 phase in M059J cells was accompanied by apoptosis at 12 h. Altogether, the data suggested that DNA-PK may have two roles in mammalian cells after DNA damage, a role in DNA DSB repair and a second role in DNA-damaged cells to traverse a G2 checkpoint, by which DNA-PK may affect cellular sensitivity to ionizing radiation. 地址: [Li Ning; Zhang Hong; Wang Yanling; Hao Jifang] Chinese Acad Sci, Inst Modern Phys, Lanzhou 730000, Peoples R China; [Li Ning; Zhang Hong; Wang Yanling; Hao Jifang] Key Lab Heavy Ion Radiat Med Gansu Prov, Lanzhou 730000, Peoples R China; [Li Ning; Wang Yanling] Chinese Acad Sci, Grad Sch, Beijing 100039, Peoples R China; [Wang Xiaohu] Gansu Tumor Hosp, Dept Radiotherapy, Lanzhou 730050, Peoples R China

DNA损伤检验点蛋白表达对肿瘤细胞辐射敏感性的影响

本论文应用X射线和12C6+离子对不同肿瘤细胞：HL-60、K562、SMMC-7721和HepG2进行辐照，用克隆形成率和四唑盐比色法(MTT)测定四种细胞的辐射敏感性；通过流式细胞术测定细胞周期分布、细胞凋亡、ATM和SMC1蛋白的表达变化。应用免疫细胞化学法与流式检测相结合研究了γ-H2AX蛋白表达的时间效应与剂量效应之间的关系。实验结果表明，四种细胞的辐射敏感性由强到弱依次为HL-60>K562>SMMC-7721>HepG2。即ATM表达量越低的细胞对辐射越敏感，周期阻滞水平越低，细胞凋亡越明显，但辐照后ATM蛋白的表达无显著增加，说明ATM的表达量和功能状态与细胞辐射敏感性有关，但其表达水平不能完全反映ATM蛋白激酶的活性。对ATM表达量差异最显著的HepG2和HL-60细胞来说,辐照前SMC1的表达水平与细胞S期的含量没有直接关系，辐照后SMC1蛋白的上调表达在S期阻滞修复中发挥明显的作用。辐照后1h,HL-60和HepG2细胞的H2AX磷酸化水平随吸收剂量的增加呈线性正相关,但曲线斜率与细胞辐射抗性的差异没有直接的联系。γ-H2AX的消失率与存活分数存在良好的相关性，HepG2细胞抗辐射能力强，这一时间短，HL-60细胞抗辐射能力弱，这一时间长。可以用γ-H2AX的消失速率来评估细胞的辐射敏感性。 以SMMC-7721细胞为同步化细胞模型发现，与其它同步化方法相比，步进电机旋转同步化培养法对细胞损伤最小，同步化效率最高，达到M期＞90%，GO/G1期＞80%，S期＞60%，G2/M>50%。同种射线辐照，GO/G1期SMMC-7721细胞的存活相对G2/M期来说较高。12C6+离子辐照明显减小了二者敏感度的差异性

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

重离子引起DNA损伤及其对细胞周期进程的影响

目的：木论文重点研究重离子不同剂量离子辐照后DNA损伤程度的变化，以及进而引起的细胞周期改变等现象。为重离子治癌的临床应用积累必要的基础数据。材料与方法：采用兰州重离子研究装置（HIRFL）加速的碳、氖等重离子辐照体外培养的贴璧肿瘤细胞，以单细胞电泳法（SCGE）检测DNA的损伤程度；以流式细胞技术（FCM）检测细胞的周期改变现象。结果：1．SMMC-7721月干癌细胞经重离子（氖、碳）辐照后，DNA损伤现象明显，表现为单细胞电泳中出现的普遍的拖尾现象（t-test，P<0.001，compared with control。2．80MeV／u 2ONe10＋辐照后立即检测发现：2Gy造成100％的细胞损伤：8Gy照射造成80％的细胞严重损伤：且彗尾拖尾长度随剂量增加早．指数关系增长，仔值为0.99058。3．辐照后12小时，若干不同剂量辐照的样品其彗尾长度趋于相同：如05协、Ic）和ZGy辐照样品的彗尾长度分别为132.3±12.8、132.9±9.5和133.1±11.7μm，24h，时为35.0±3.9、35.5±4.1和48.2±6.Oμm，这说明在一定剂量范围内（0.5-2Gy）的辐照下，随着修复时间的延长，细胞DNA的损伤程度将趋于相同。同时，细胞继续孵育12小时，对于0.55-2Gy辐照组来说DNA的损伤情况是24小时内操作最严重的。4．辐照后24小时，0.5-2Gy辐照组埙份明显修复，略高于对照，但是对于4Gy和SGy辐照组仍带有明显的损伤现魏。簇说眼熏离子辐照（>4Gy）所致DNA报伤的不足修复性。5，DNA的损伤将导致细胞通过一系列调节机制抑制细胞周期的进行，为DNA修复系统提供充足的时间进行DNA修复，从而造成明显的细胞周期阳．滞现琢，这在重离子辐照实验中同样得到证实，尤其是S期、G2／M期阻净带现象非常明显。

Elevated levels of urinary 8-hydroxy-2'-deoxyguanosine in male electrical and electronic equipment dismantling workers exposed to high concentrations of polychlorinated dibenzo-p-dioxins and dibenzofurans, polybrominated diphenyl ethers, and polychlorinated biphenyls

To investigate the occupational exposure levels to polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/Fs), polybrominated diphenyl ethers (PBDEs), and polychlorinated biphenyls (PCBs), indoor dust (n = 3) in workshops and hair samples from male workers (n = 64) were collected at two electrical and electronic equipment waste (E-waste) dismantling factories located in the LQ area in east China in July 11-13, 2006. Pre- and postworkshift urines (64 of each) were also collected from the workers to study oxidative damage to DNA using 8-hydroxy-2'-deoxyguanosine (8-OHdG) as a biomarker. The concentrations of PCDD/Fs, PCDD/F-WHO-TEQs, PBDEs, PCBs and PCB-WHO-TEQs were (50.0 +/- 8.1) x 10(3), 724.1 +/- 249.6, (27.5 +/- 5.8) x 10(6), (1.6 +/- 0.4) x 10(9), (26.2 +/- 3.0) x 10(3) pg/g dry weight (dw) in dust, and (2.6 +/- 0.6) x 10(3), 42.4 +/- 9.3, (870.8 +/- 205.4) x 10(3), (1.6 +/- 0.2) x 10(6), 41.5 +/- 5.5 pg/g dw in hair, respectively. The homologue and congener profiles in the samples demonstrated that high concentrations of PCDD/Fs, PBDEs, and PCBs were originated from open burning of E-waste. The 8-OHdG levels were detected at 6.40 +/- 1.64 mu mol/mol creatinine in preworkshift urines. However, the levels significantly increased to 24.55 +/- 5.96 mu mol/mol creatinine in postworkshift urines (p < 0.05). Then, it is concluded that there is a high cancer risk originated from oxidative stress indicated by the elevated 8-OHdG levels in the E-waste dismantling workers exposed to high concentrations of PCDD/Fs, PBDEs, and PCBs.

Deletion of yeast CWP genes enhances cell permeability to genotoxic agents

We have previously reported the development of a novel genotoxic testing system based on the transcriptional response of the yeast RNR3-lacZ reporter gene to DNA damage. This system appears to be more sensitive than other similar tests in microorganisms, and is comparable with the Ames test. In an effort to further enhance detection sensitivity, we examined the effects of altering major cell wall components on cell permeability and subsequent RNR3-lacZ sensitivity to genotoxic agents. Although inactivation of single CWP genes encoding cell wall mannoproteins had little effect, the simultaneous inactivation of both CWP1 and CWP2 had profound effects on the cell wall structure and permeability. Consequently, the RNR3-lacZ detection sensitivity is markedly enhanced, especially to high molecular weight compounds such as 4-nitroquinoline-N-oxide (> sevenfold) and phleomycin (> 13-fold). In contrast, deletion of genes encoding representative membrane components or membrane transporters had minor effects on cell permeability. We conclude that the yeast cell wall mannoproteins constitute the major barrier to environmental genotoxic agents and that their removal will significantly enhance the sensitivity of RNR-lacZ as well as other yeast-based genotoxic tests.