低剂量辐射诱导hep G2细胞克隆存活和细胞周期适应性反应

以低剂量γ射线(0.05Gy)预照射人肝癌细胞hepG2,8h后再用高剂量(3Gy)照射,测定了细胞的克隆存活率和细胞周期。结果表明,低剂量辐射预处理可诱导hepG2细胞产生克隆存活适应性反应,并且有助于细胞通过G2/M期阻滞;低剂量辐射诱导的克隆存活适应性反应与增强的通过细胞周期阻滞的能力之间有一定的相关性。

电离辐射对不同肿瘤细胞细胞周期进程的影响

Human tumor cell lines of SMMC-7721 (liver cancer), hepG2 (liver cancer), HO-8910 (ovary cancer), and Hela (cervix cancer) were irradiated to 3Gy by Co γ rays and different cell cycle responses were found. The re- 60 sults showed that the SMMC-7721, hepG2 and HO-8910 cells displayed G2 / M phase arrest and S phase tempo- rally delayed after the irradiation. The Hela cells had an increased number of cells in both G2 / M and S phase, which indicated that the G2 / M and S checkpoints were both activated.

低剂量电离辐射预处理对不同肿瘤细胞周期的影响

实验研究了低剂量γ射线预照射对人肝癌细胞系hepG2和人宫颈癌细胞系HeLa的细胞周期进程的影响.结果显示(1)低剂量(5cGy)辐射后,两种细胞的G2/M期细胞短暂累积;(2)低剂量辐射促进肿瘤细胞的生长;(3)高剂量(3Gy)辐射后,hepG2细胞发生G2期阻滞,HeLa细胞发生S期和G2期阻滞;(4)与单纯高剂量照射相比,低剂量辐射预处理后4h,再给予高剂量辐射,可进一步促进hepG2细胞在G2/M期累积,但是预照射对HeLa细胞的周期进程没有明显影响.因此,低剂量辐射预处理对高剂量诱导的细胞周期阻滞的影响依赖于肿瘤细胞的类型.

Effect of 80.55 MeV/u(12)C(6+) ions on radiosensitivity and cell cycle of human hepatoma cell lines

In this paper, the relationship between radiosensitivity, cell cycle alteration and the change of apoptosis in different human hepatoma cell lines irradiated by heavy ions were studied with the aim of building up the base data for clinical therapy. Exponentially growing hepatoma cell lines were irradiated by 80.55 MeV/u(12)C(6+) ions at a dose of 0 Gy, 0.5 Gy, 1 Gy, 2 Gy, 4 Gy and 8 Gy. The radiosensitivity was assessed by means of the colony-forming assay. The DNA content, the percentage of each cell-cycle phase and the apoptosis rate were obtained with flow cytometry methods. After the irradiation, the SF2 (survival fraction at 2 gray) of SMMC-7721 cells were evidently lower than that of HepG2 cells. The S phase arrest, G2/M phase arrest delay and the apoptosis in the two hepatoma cell lines varied with the increase of the dose and repair time. The heavy ions could obviously kill the human hepatoma cell lines. Compared to HepG2 cells, SMMC-7721 cells were more radiosensitive to C-12(6+) ions.

Adenovirus-mediated p53 gene transfer sensitizes hepatocellular carcinoma cells to heavy-ion radiation

Background. The purpose of this study was to investigate whether adenovirus-mediated p53 transfer could sensitize hepatocellular carcinoma to heavy-ion irradiation. Methods. HepG2 cells were preexposed to a C-12(6+) beam, and then infected with replication-deficient adenovirus recombinant vectors containing human wild-type p53 (AdCMV-p53) (C-12(6+) irradiation + AdCMV-p53 infection). The survival fraction was determined by clonogenic assay. The cell cycle, cell apoptosis, and p53 expression were monitored by flow cytometric analysis. Results. p53 expression in C-12(6+) irradiation + AdCMV-p53 infection groups was markedly higher than that in C-12(6+) irradiation only groups (P < 0.05), suggesting that the preexposure to the C-12(6+) beam promoted the expression of exogenous p53 in HepG2 cells infected with AdCMV-p53 only. The G(1)-phase arrest and cell apoptosis in the C-12(6+) irradiation + AdCMV-p53 infection groups were significantly more than those in the C-12(6+) irradiated groups (P < 0.05). The survival fractions of the C-12(6+) irradiation + AdCMV-p53 infection groups decreased by 30%-49% compared with those of the C-12(6+) beam-irradiated only groups (P < 0.05). Conclusions. Adenovirus-mediated p53 gene transfer can promote G(1)-phase arrest and cell apoptosis, thus sensitizing hepatocellular carcinoma cells to heavy-ion irradiation.

Comparison of clonogenic assay with premature chromosome condensation assay in prediction of human cell radiosensitivity

Aim: To determine whether the number of non-rejoining G2-chromatid breaks can predict the radiosensitivity of human cell lines. Methods: Cell lines of human ovary carcinoma cells (HO8910), human hepatoma cells (HepG2) and liver cells (L02) were irradiated with a range of doses and assessed both of cell survival and non-rejoining G2-chromatid breaks at 24 h after irradiation. Cell survival was documented by a colony assay. Non-rejoining G2-chromatid breaks were measured by counting the number of non-rejoining G2 chromatid breaks at 24 h after irradiation, detected by the prematurely chromosome condensed (PCC) technique. Results: A linear-quadratic survival curve was observed in three cell lines, and HepG2 was the most sensitive to gamma-radiation. A dose-dependent linear increase was observed in radiation-induced non-rejoining G2-PCC breaks measured at 24 h after irradiation in all cell lines, and HepG2 was the most susceptible to induction of non-rejoining G2-PCC breaks. A close correlation was found between the clonogenic radiosensitivity and the radiation-induced non-rejoining G2-PCC breaks (r=0.923). Furthermore, survival-aberration correlations for two or more than two doses lever were also significant. Conclusion: The number of non-rejoining G2 PCC breaks holds considerable promise for predicting the radiosensitivity of normal and tumor cells when two or more than two doses lever is tested.

High-efficiency transfer and expression of AdCMV-p53 in human hepatocellular carcinoma cells induced by low-dose carbon-ion radiation

Objective To investigate whether the irradiation with C-beam could enhance adenovirus-mediated transfer and expression of p53 in human hepatocellular carcinoma. Materials and methods HepG2 cells were exposed to C-beam or gamma-ray and then infected with replicationdeficient adenovirus recombinant vectors containing human wild-type p53 or green fluorescent protein, respectively. The transfer efficiency and expression level of the exogenous gene were detected by flow cytometric analysis. Cell survival fraction was detected by clonogenic assay. Results The transfer frequency in C-beam or gamma-irradiated groups increased by 50-83% and 5.7-38.0% compared with the control, respectively (P < 0.05). Compared with C-beam alone, p53 alone, and gamma-ray with p53, the percentages of p53 positive cells for 1 Gy C-beam with p53 increased by 56.0-72.0%, 63.5-82.0%, and 31.3-72.5% on first and third day after the treatments, respectively (P < 0.05). The survival fractions for the 2Gy C-bearn and AdCMV-p53 infection groups decreased to similar to 2%. Conclusion C-beam irradiation could significantly promote AdCMV-green fluorescent protein transfer and expression of p53.

碳离子束联合p53腺病毒重组体转染对肿瘤细胞生物学效应研究

肿瘤是严重威胁人类生命健康的常见病、多发病，不仅病因复杂、发生发展异常迅速，而且到目前为止，发病机理不完全清楚，尚无适应范围广和有特异疗效的治疗方法。因此，肿瘤治疗方法的探索依然是医学、生物学及其相关学科研究的热点。肿瘤的重离子治疗和基因治疗是近年来发展起来的新的肿瘤治疗方法。但它们同样或多或少存在一些不足。在肿瘤治疗方法的探索中，将两种或两种以上理化特性或生物学作用原理不尽相同的现有治疗方法有机结合，充分利用各自优势，取长补短，使治疗效果叠加，对肿瘤发挥协同或相加抑制作用。本研究将重离子辐射与p53腺病毒重组体(AdCMV-p53)转染有机结合，探讨了重离子辐射联合p53基因转导对肿瘤细胞的生物学作用及其可能机理。在低剂量γ辐射联合AdCMV-p53/GFP转染HT-29和PC-3细胞研究基础上，我们用不同剂量的AdCMV-p53/GFP转染经0.5 Gy、1.0 Gy、2.0 Gy 12C6+束/γ射线预辐射处理的人非小细胞肺癌(H1299细胞系，nullp53)，人肝癌细胞(HepG2细胞系，wtp53)和人宫颈癌细胞(Hela细胞系，wtp53，wtp53低水平表达)。用流式细胞分析法检测肿瘤细胞绿色荧光蛋白(GFP)、p53蛋白表达水平和细胞周期。DAPI染色后用荧光显微镜检测细胞凋亡。用RT-PCR检测外源性p53转录。用Western Blot检测外源性p53、MDM2和p21蛋白表达。用克隆形成法测定肿瘤细胞存活。通过与γ辐射联合腺病毒重组体转染组比较，观察了12C6+ 辐射联合腺病毒重组体转染对肿瘤细胞外源性p53蛋白表达、细胞周期阻滞、细胞凋亡和细胞增殖的影响。结果显示，12C6+ 辐射对AdCMV-GFP转染H1299、HepG2和Hela细胞的诱导作用明显强于γ辐射(p<0.05)。与γ辐射诱导AdCMV-GFP转染组相比，0.5 Gy 12C6+束辐射联合20 MOI AdCMV-p53转染组H1299细胞GFP阳性率增加约50% (其GFP阳性率提高到约90%)。0.5 Gy、1.0 Gy 12C6+辐射联合40 MOI AdCMV-p53转染组HepG2细胞GFP阳性率增加约44%(其阳性率分别达56.6%和76.4%)。0.5 Gy、1.0 Gy 12C6+ 束辐射联合40 MOI AdCMV-p53转染组Hela细胞GFP阳性率分别增加37.8%和50%(其阳性率分别达43.4%和59.8%)。12C6+ 辐射对AdCMV-p53转染H1299、HepG2和Hela细胞外源性p53蛋白表达的增强作用明显强于γ辐射(p<0.05)。12C6+ 辐射联合AdCMV-p53转染组各种细胞p53阳性率明显高于其它处理组同种细胞p53阳性率(p<0.05)。转染后第5天，γ辐射联合AdCMV-p53转染组3种细胞p53阳性率均降至对照水平。转染后第13天，12C6+ 辐射联合AdCMV-p53转染组3种细胞p53阳性率仍高达6－44%。12C6+ 辐射联合AdCMV-p53转染H1299细胞G0/G1、G2/M期细胞所占比例明显高于其它处理组G0/G1、G2/M期细胞所占比例(p<0.05)。与γ辐射联合AdCMV-p53转染组相比，12C6+ 辐射联合AdCMV-p53转染组G0/G1期细胞增加6－36%，G2/M期细胞增加了13－86%。12C6+ 辐射联合AdCMV-p53转染HepG2细胞G0/G1期细胞所占比例明显高于其它处理组G0/G1期细胞所占比例(p<0.05)；转染后第5天，1.0、2.0 Gy 12C6+ 辐射联合AdCMV-p53转染组G2/M期细胞所占比例明显高于γ辐射联合AdCMV-p53转染组G2/M期细胞所占比例(p<0.05)。各12C6+束辐射联合AdCMV-p53转染Hela细胞G0/G1和G2/M期细胞所占比例均明显高于单纯12C6+ 辐射组和γ射线辐射联合AdCMV-p53转染组G0/G1和G2/M期细胞所占比例(p<0.05)。各12C6+ 辐射联合AdCMV-p53转染H1299、HepG2和Hela细胞凋亡率明显高于等剂量12C6+ 单纯辐射和等剂量γ辐射联合AdCMV-p53转染组细胞凋亡率(p<0.05)。与等剂量单纯12C6+辐射和等剂量γ辐射联合AdCMV-p53转染组相比，12C6+ 辐射联合AdCMV-p53转染H1299细胞凋亡率分别增加8.0－66.0%和9.3－63.5%；12C6+束辐射联合AdCMV-p53转染HepG2细胞凋亡率分别增加0.8－32.7%和4.5－27.1%； 12C6+束辐射联合AdCMV-p53转染Hela细胞凋亡率分别增加4.8－30.7%和3.1－22.7%。低剂量12C6+ 辐射联合AdCMV-p53转染细胞存活率明显低于其它处理组同种细胞存活率(p<0.05)。结果提示，低剂量碳离子辐射对腺病毒重组体转染肿瘤细胞和靶细胞内外源p53蛋白表达的促进作用明显强于低剂量γ辐射。碳离子辐射联合AdCMV-p53转染通过促进外源性p53转导、靶细胞外源性p53蛋白表达、细胞周期阻滞和细胞凋亡等增强对肿瘤细胞的抑制。碳离子辐射联合AdCMV-p53转染对肿瘤细胞生物学作用与肿瘤细胞内在p53基因状态有关。总之，我们的研究表明，低剂量碳离子辐射联合AdCMV-p53转染，可通过促进腺病毒重组体对肿瘤细胞的转染、增强靶细胞外源性p53蛋白稳定表达及其由此而诱发的细胞周期阻滞与细胞凋亡等有效抑制肿瘤细胞。在临床上，碳离子辐射联合AdCMV-p53转染有望在提高肿瘤治疗效果的基础上，进一步降低碳离子辐射与AdCMV-p53转染的各自临床用量，减少碳离子辐射的毒副作用，降低AdCMV-p53转染的潜在生物危险性

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

一氧化氮（NO）对人肝癌细胞的重离子辐射增敏作用

为了探索一氧化氮（nitric oxide，NO）作为重离子治癌的辐射增敏剂的相关机理和应用前景，本课题采用NO与12C6+离子束(或X射线)辐照协同作用人肝癌细胞（SMMC-7721细胞和HepG2细胞），研究了NO与辐照相结合对两种细胞的生物学效应影响，为重离子治癌中放射增敏剂的临床应用提供一定的理论基础和实验依据。现得出结论如下： 1． 重离子辐射与X射线辐射相比，能够更有效地杀死肿瘤细胞。 2． NO能够增加肿瘤细胞的辐射敏感性。 3 NO的放射增敏效果在一定浓度范围内存在浓度效应关系。 4 NO对不同细胞系的辐射增敏作用效果并不完全相同

Capillary electrophoresis with electrochemiluminescence detection for measurement of aspartate aminotransferase and alanine aminotransferase activities in biofluids

A new sensitive assay for aspartate aminotransterase (AST) and alanine aminotransferase (ALT) activities in biofluids was developed, based on the separation and detection of alanine, glutamate, and aspartate using capillary electrophoresis (CE) with electrochemiluminescence (ECL) detection. The three amino acids were separated in 5 mM phosphate of pH 2.1 as background electrolyte, and detected on a 500 mu m platinum disk electrode at 1.2 V (versus Ag/AgCl) in the presence of 10 mM tris(2,2'-bipyridyl)ruthenium(II) dissolved in 80 mM phosphate of pH 10.5. A mass detection limit of 37.3 fmol (or 81.5 fmol) for glutamate, corresponding to the product in the enzyme reaction catalyzed by 1.24 x 10(-9) U AST (or 2.72 x 10(-9) U ALT) in a 30 min reaction period, was achieved. This assay was applied to investigate the cytotoxicity effect of ethanol on HepG2 cells and differentiating nonalcoholic steatohepatitis (NASH) from alcoholic liver disease, indicating that the technique is promising for the application in the cell biological and clinical fields.

Nanotoxicologia

Projeto de Pós-Graduação/Dissertação apresentado à Universidade Fernando Pessoa como parte dos requisitos para obtenção do grau de Mestre em Ciências Farmacêuticas

Mammalian cell cultures as a model system for the determination of cytotoxicity induced by cholesterol oxidation products

Oxysterols are products of cholesterol oxidation, which may be produced endogenously or may be absorbed from the diet where they are commonly found in foods of animal origin. Oxysterols are known to be cyctotoxic to cells in culture and mode of toxicity has been identified as apoptosis in certain cell lines. The cytotoxicity of the oxysterols 25-hydroxycholesterol (25-OH) and 7β-hydroxycholesterol (7β-OH) was examined in two human cell lines, HepG2, a hepatoma cell line, and U937, a monocytic cell line. Both 25-OH and 7β-OH were cytotoxic to the HepG2 cell line but apoptotic cells were not detected and it was concluded that cells underwent necrosis. 25-OH was not cytotoxic to the U937 cell line but it was found to have a cytostatic effect. 7β-OH was shown to induce apoptosis in the U937 line. The mechanism of oxysterol-induced apoptosis has not yet been fully elucidated, however the generation of an oxidative stress and the depletion of glutathione have been associated with the initial stages of the apoptotic process. The concentration of cellular antioxidant enzyme, superoxide dismutase (SOD) was increased in association with 7β-OH induced apoptosis in the U937 cell line. There was no change in the glutathione concentration or the SOD activity of HepG2 cells, which underwent necrosis in the presence of 7β-OH. Many apoptotic pathways center on the activation of caspase-3, which is the key executioner protease of apoptosis. Caspase-3 activity was also shown to increase in association with 7β-OH-induced apoptosis in U937 cells but there was no significant increase in caspase-3 activity in HepG2 cells. DNA fragmentation is regarded as the biochemical hallmark of apoptosis, therefore the comet assay as a measure of DNA fragmentation was assessed as a measure of apoptosis. The level of DNA fragmentation induced by 7β-OH, as measured using the comet assay, was similar for both cell lines. Therefore, it was concluded that the comet assay could not be used to distinguish between 7β-OH-induced apoptosis in U937 cells and 7β-OH-induced necrosis in HepG2 cells. The cytotoxicity and apoptotic potency of oxysterols 25-OH, 7β-OH, cholesterol- 5a,6a-epoxide (a-epoxide), cholesterol-5β,6β-epoxide (β-epoxide), 19-hydroxy-cholesterol (19-OH), and 7-ketocholesterol (7-keto) was compared in the U937 cell line. 7 β-OH, β-epoxide and 7-keto were found to induce apoptosis in U937 cells. 7β-OH-induced apoptosis was associated with a decrease in the cellular glutathione concentration and an increase in SOD activity, 7-keto and β-epoxide did not affect the glutathione concentration or the SOD activity of the cells.a-Epoxide, 19-OH and 25-OH were not cytotoxic to the U937 cell line.

Molecular and cellular aspects of the SREBP pathway

The SREBP (sterol response element binding proteins) transcription factors are central to regulating de novo biosynthesis of cholesterol and fatty acids. The SREBPs are regulated by retention or escape from the ER to the Golgi where they are proteolytically cleaved into active forms. The SREBP cleavage activating protein (SCAP) and the INSIG proteins are essential in this regulatory process. The aim of this thesis is to further characterise the molecular and cellular aspects surrounding regulation of SREBP processing. SREBP and SCAP are known to interact via their carboxy-terminal regulatory domains (CTDs) but this interaction is poorly characterised. Significant steps were achieved in this thesis towards specific mapping of the interaction site. These included cloning and over expression and partial purification of tagged SREBP1 and SREBP2 CTDs and probing of a SCAP peptide array with the CTDs. Results from the SREBP2 probing were difficult to interpret due to insolubility issues with the protein, however, probing with SREBP1 revealed five potential binding sites which were detected reproducibly. Further research is necessary to overcome SREBP2 insolubility issues and to confirm the identified SREBP1 interaction site(s) on SCAP. INSIG1 has a central role in regulating SREBP processing and in regulating stability of 3-hydroxy-3-methylglutaryl coenzyme A reductase (HMGCR), a rate limiting enzyme in cholesterol biosynthesis. There are two protein isoforms of human INSIG1 produced through the use of two in-frame alternative start sites. Bioinformatic analysis indicated that the presence of two in-frame start sites within the 5-prime region of INSIG1 mRNA is highly conserved and that production of two isoforms of INSIG1is likely a conserved event. Functional differences between these two isoforms were explored. No difference in either the regulation of SREBP processing or HMGCR degradation between the INSIG1 isoforms was observed and the functional significance of the two isoforms is as yet unclear. The final part of this thesis focused on enhancing the cytotoxicity of statins by targeted inhibition of SREBP processing by oxysterols. Statins have significant potential as anti-cancer agents as they inhibit the activity of HMGCR leading to a deficiency in mevalonate which is essential for cell survival. The levels of HMGCR fluctuate widely due to cholesterol feedback of SREBP processing. The relationship between sterol feedback and statin mediated cell death was investigated in depth in HeLa cells. Down regulation of SREBP processing by sterols significantly enhanced the efficacy of statin mediated cell death. Investigation of sterol feedback in additional cancer cell lines showed that sterol feedback was absent in cell lines A- 498, DU-145, MCF-7 and MeWo but was present in cell lines HT-29, HepG2 and KYSE-70. In the latter inhibition of SREBP processing using oxysterols significantly enhanced statin cytotoxicity. The results indicate that this approach is valid to enhance statin cytotoxicity in cancer cells, but may be limited by deregulation of SREBP processing and off target effects of statins, which were observed for some of the cancer cell lines screened.

Herbal Dietary Supplements: Safety, Efficacy, and Use by Breast Cancer Survivors

Gemstone Team IMAC (Integrative Medicine and Cancer)