Alterations of FHIT Gene and P16 Gene in Nickel Transformed Human Bronchial Epithelial Cells

Objective To study the alterations of FHIT gene and P16 gene in malignant transformed human bronchial epithelial cells induced by crystalline nickel sulfide using an immortal human bronchial epithelial cell line, and to explore the molecular mechanism of nickel carcinogenesis. Methods 16HBE cells were treated 6 times with different concentrations of NiS in vitro, and the degree of malignant transformation was determined by assaying the anchorage-independent growth and tumorigenicity. Malignant transformed cells and tumorigenic cells were examined for alterations of FHIT gene and P16 gene using RT-PCR, DNA sequencing, silver staining PCR-SSCP and Western blotting. Results NiS-treated cells exhibited overlapping growth. Compared wkh that of negative control cells, soft agar colony formation efficiency of NiS-treated cells showed significant increases （P〈0.01） and dose-dependent effects. NiS-treated cells could form tumors in nude mice, and a squamous cell carcinoma was confirmed by histopathological examination. No mutation of exon 2 and exons 2-3, no abnormal expression in pl6 gene and mutation of FHIT exons 5-8 and exons 1-4 or exons 5-9 were observed in transformed cells and tumorigenic cells. However, aberrant transcripts or loss of expression of the FHIT gene and Fhit protein was observed in transformed cells and tumorigenic cells. One of the aberrant transcripts in the FHIT gene was confirmed to have a deletion of exon 6, exon 7, exon 8, and an insertion of a 36 bp sequence replacing exon 6-8. Conclusions The FHIT gene rather than the P16 gene, plays a definite role in nickel carcinogenesis. Alterations of the FHIT gene induced by crystalline NiS may be a molecular event associated with carcinogen, chromosome fragile site instability and cell malignant transformation. FHIT may be an important target gene activated by nickel and other exotic carcinogens.

Alterative Expression and Sequence of Human Elongation Factor-1δ during Malignant Transformation of Human Bronchial Epithelial Cells Induced by Cadmium Chloride

Objective To study the alternative expression and sequence of human elongation factor-1δ （human EF-1δ p31） during malignant transformation of human bronchial epithelial cells induced by cadmium chloride （CdCl2） and its possible mechanism. Methods Total RNA was isolated at different stages of transformed human bronchial epithelial cells （16HBE） induced by CdCl2 at a concentration of 5.0 μM. Special primers and probe for human EF-1δ p31 were designed and expression of human EF-18 mRNA from different cell lines was detected with fluorescent quantitative PCR technique. EF-18 cDNA from different cell lines was purified and cloned into pMD 18-T vector followed by confirming and sequencing analysis. Results The expressions of human EF-1δ p31 at different stages of 16HBE cells transformed by CdCl2 was elevated （P〈0.01 or P〈0.05）. Compared with their corresponding non-transformed ceils, the overexpression level of EF-15 p31 was averagely increased 2.9 folds in Cd-pretransformed cells, 4.3 folds in Cd-transformed ceils and 7.2 folds in Cd-tumorigenic cells. No change was found in the sequence of overexpressed EF-1δ p31 at different stages of 16HBE cells transformed by CdCl2. Conclusion Overexpression of human EF-1δ p31 is positively correlated with malignant transformation of 16HBE cells induced by CdCl2, but is not correlated with DNA mutations.

Possible Role of DNA Polymerase beta in Protecting Human Bronchial Epithelial Cells Against Cytotoxicity of Hydroquinone

Objective To explore the toxicological mechanism of hydroquinone in human bronchial epithelial cells and to investigate whether DNA polymerase beta is involved in protecting cells from damage caused by hydroquinone. Methods DNA polymerase beta knock-down cell line was established via RNA interference as an experimental group. Normal human bronchial epithelial cells and cells transfected with the empty vector of pEGFP-C1 were used as controls. Cells were treated with different concentrations of hydroquinone （ranged from 10 μmol/L to 120 μmol/L） for 4 hours. MTT assay and Comet assay [single-cell gel electrophoresis （SCGE）] were performed respectively to detect the toxicity of hydroquinone. Results assay showed that DNA polymerase beta knock-down cells treated with different concentrations of hydroquinone had a lower absorbance value at 490 nm than the control cells in a dose-dependant manner. Comet assay revealed that different concentrations of hydroquinone caused more severe DNA damage in DNA polymerase beta knock-down cell line than in control cells and there was no significant difference in the two control groups. Conclusions Hydroquinone has significant toxicity to human bronchial epithelial cells and causes DNA damage. DNA polymerase beta knock-down cell line appears more sensitive to hydroquinone than the control cells. The results suggest that DNA polymerase beta is involved in protecting cells from damage caused by hydroquinone.

Transcriptional Factor Snail Mediates Epithelial-Mesenchymal Transition in Human Bronchial Epithelial Cells Induced by Silica

Epithelial-mesenchymal transition （EMT） plays an important role in fibrotic diseases. We have previously showed that silica induces EMT in human bronchial epithelial cells （BECs）; however, the underlying mechanism of silica-induced EMT is poorly understood. In the present study, we investigated the role of Snail in silica-induced EMT in human BECs in vitro. Human BECs were treated with silica at various concentrations and incubation times. Then MTr assay, western blot, electrophoretic mobility shift assay （EMSA）, and small interfering RNA （siRNA） transfection were performed. We found that silica increased the expression and DNA binding activity of Snail in human BECs. SNAI silica-induced expression siRNA upregulated the siRNA inhibited the of Snail. Moreover, SNAI expression of epithelial marker E-cadherin, but attenuated the expression of mesenchymal marker a-smooth muscle actin and vimentin in silica-stimulated cells. These results suggest that Snail mediates the silica-induced EMT in human BECs.

Malignant Transformation and Abnormal Expression of Eukaryotic Initiation Factor in Bronchial Epithelial Cells Induced by Cadmium Chloride

Objective To analyze the relationship between malignant transformation and abnormal expression of eukaryotic initiation factor 3 （eIF3 p36） in human bronchial epithelial （16HBE） cells induced by cadmium chloride （CdCl2）. Methods 16HBE cells were treated several times with different concentrations of CdCl2. Tumorigenic potential of transformed cells was identified by assays for anchorage-independent growth in soft agar and for tumorigenicity in nude mice after the 35th passage. Total RNA was isolated from 16HBE cells induced by CdC12, including non-transformed, Cd-transformed, and Cd-tumorigenic cell lines. Special primers for eIF3 p36 were designed and the expression of eIF3 mRNA in different cell lines was detected with fluorescent quantitative-polymerase chain reaction technique （FQ-PCR）. Results The 35th passage of 16HBE cells transformed by CdCl2 exhibited overlapping growth. Compared with the non-transformed cells, colonies of transformed cell lines in soft agar showed statistically significant increases and dose-dependent effects （P〈0.01）. All Cd-induced transformed cell lines formed rumors in nude mice within 2 weeks of inoculation, but none of the mice injected with non-transformed cells showed tumors even after 3 weeks. All tumors were pathologically identified as poorly differentiated squamous cell carcinoma. The eIF3 p36 genes in different stages of 16HBE cells transformed by CdCl2 were elevated as compared with the non-transformed control （P〈0.01）, and the eIF3 expression increased with the degree of cell malignancy. Conclusion CdCl2 is capable of inducing morphological transformation in 16HBE cells and transformed cells are potentially tumorigenic. Over-expression of eIF3 p36 is positively correlated with malignant transformation of 16HBE cells induced by CdCl2 and may be one of the molecular mechanisms potentially responsible for carcinogenesis due to Cd.

Proteomics Study on the Differentially Expressed Proteins in c-fos-silenced Cells Exposed to PM2.5

Objective To investigate the effect of c-fos gene silencing on differentially expressed proteins(DEPs) in human bronchial epithelial(HBE) cells after exposure to fine particulate matter(PM2.5).Methods HBE cells and c-fos-silenced HBE cells were exposed to 50 μg/mL PM2.5, LC-MS/MS and tandem mass tag(TMT) labeling methods were combined with bioinformatics methods, and DEPs and interaction networks were identified.Results In the HBE group, 414 DEPs were screened, of which 227 were up-regulated and 187 downregulated. In the c-fos silenced HBE group, 480 DEPs were screened, including 240 up-regulated proteins and 240 down-regulated proteins. KEGG annotations showed that DEPs in the HBE group are mainly concentrated in the glycolysis/gluconeogenesis pathway and those in the c-fos silenced group are concentrated mainly in endoplasmic reticulum and the processing of proteins. Additionally, the abnormal expression of GPRC5 C, DKK4, and UBE2 C was identified in top 15 DEPs. After constructing the protein interaction network, 20 Hub proteins including HNRNPA2 B1, HNRNPL, RPS15 A, and RPS25 were screened from the HBE group and the c-fos silenced HBE group.Conclusion c-fos gene affected the expression of cancer-related proteins. Our results provided a scientific basis for further study of PM2.5-induced carcinogenesis mechanism.

Expression of Telomerase Reverse Transcriptase during the Malignant Transformation of Cadmium-Induced Cells

The objective of the present study was to investigate human telomerase reverse transcriptase (hTERT) mRNA and protein expressions during the cadmium chloride-induced malignant transformation of human bronchial epithelial (16HBE) cells. Fluorescence quantitative PCR (FQ-PCR) and Western blot analyses were performed to detect the hTERT mRNA and protein expressions in normal 16HBE cells, cadmium chloride-transformed 16HBE cells, and tumorigenic cells from nude mice inoculated with cadmium chloride-transformed 16HBE cells. Under the inner standard of GAPDH, the hTERT mRNA expression was significantly higher at different stages of malignant transformation (cadmium chloride-transformed 16HBE cells at passages 15 and 35 and tumorigenic cells from nude mice) than in normal 16HBE cells, and increased with the development of malignancy (P < 0.01). In addition, hTERT protein expression increased with the development of malignancy. These findings demonstrate that hTERT expression is related to cadmium chlorideinduced malignant transformation. Cadmium chloride-induced malignant transformation is involved in changes in the hTERT activity, and might be an early event in cadmium chloride-induced malignant transformation.

Human bronchial epithelial cell injuries induced by fine particulate matter from sandstorm and non-sandstorm periods：Association with particle constituents

Epidemiological studies have demonstrated the exacerbation of respiratory diseases following sandstorm-derived particulate matter（PM） exposure.The presence of anthropogenic and biological agents on the sandstorm PM and the escalation of PM 〈 2.5 μm（PM2.5）pollution in China have led to serious concerns regarding the health effects of PM2.5during Asian sandstorms.We investigated how changes in PM2.5composition,as the weather transitioned towards a sandstorm,affected human airway epithelial cells.Six PM2.5samples covering two sandstorm events and their respective background and transition periods were collected in Baotou,an industrial city near the Gobi Desert in China.PM samples from all three periods had mild cytotoxicity in human bronchial epithelial cell line BEAS-2B,which was positively correlated with the contents of polycyclic aromatic hydrocarbons and several metals.All PM samples potently increased the release of interleukin-6（IL-6） and interleukin-8（IL-8）.Endotoxin in all samples contributed significantly to the IL-6 response,with only a minor effect on IL-8.Cr was positively correlated with both IL-6 and IL-8 release,while Si was only associated with the increase of IL-6.Our study suggests that local agricultural and industrial surroundings in addition to the sandstorm play important roles in the respiratory effects of sandstorm-derived PM.

自噬在α粒子辐射诱发人支气管上皮细胞恶性转化中的作用

目的:探讨自噬在α粒子辐射诱发永生化人支气管上皮细胞BEP2D恶性转化中的作用。方法:采用Western blot检测BEP2D细胞、α粒子作用BEP2D后的第24代细胞RH24以及α粒子作用BEP2D后的恶性转化细胞BERP35T-1(经鉴定为肺鳞癌细胞)内自噬相关蛋白LC3B-II、LC3B-I和P62的表达,透射电镜观察细胞内单位面积自噬小体的数量。分别用40和60μmol/L自噬抑制剂氯喹(CQ)及25 pmol/L自噬激活剂雷帕霉素(Rapa)作用BERP35T-1细胞,采用Western blot法检测细胞内LC3B和P62蛋白的表达情况,CCK-8法检测细胞的存活率,Transwell侵袭实验检测细胞的侵袭数,划痕愈合实验检测细胞划痕闭合率。结果:与BEP2D细胞相比,RH24和BERP35T-1细胞内LC3B-II/I蛋白比值增高(P<0.05或P<0.01),P62蛋白表达降低,自噬小体数量增多(P<0.01)。40和60μmol/L的CQ分别作用BERP35T-1细胞48 h后,细胞内LC3B-II/I蛋白比值和P62蛋白表达水平均升高,细胞的存活率、侵袭数和划痕闭合率均降低(均为P<0.01);25 pmol/L的Rapa作用BERP35T-1细胞48 h后,细胞内LC3B-II/I蛋白比值升高,P62蛋白表达减弱,细胞的存活率、侵袭数和划痕闭合率均升高(P<0.05或P<0.01)。结论:在α粒子辐射诱发BEP2D细胞恶性转化过程中,细胞自噬增强,可能由此提高细胞的增殖、侵袭和迁移能力,从而促进细胞恶性转化。

HSV-1突变株M6感染人支气管上皮细胞后对巨噬细胞介导的免疫反应的影响

目的探究1型单纯疱疹病毒(herpes simplex virus type 1,HSV-1)突变株M6感染人支气管上皮细胞(16HBE细胞)后对巨噬细胞介导的免疫反应的影响。方法用HSV-1感染16HBE细胞分析培养液中细胞因子的变化;将巨噬细胞与被HSV-1毒株感染的16HBE细胞的上清液共培养并通过尾静脉回输至小鼠体内,分别在第1、3、7、28、56、90天对小鼠淋巴结细胞因子表达水平、脾脏T细胞比例变化、小鼠中和抗体表达水平以及特异性T细胞反应进行检测。结果16HBE细胞被HSV-1突变株感染后,上清液中募集和激活巨噬细胞相关的细胞因子均较高水平表达但略低于野毒株组;尾静脉回输实验后,突变株组小鼠淋巴结炎症因子、趋化因子和T细胞的比例随时间发生了不同的变化,并引起了弱于野毒株组的体液免疫和强于野毒株组的特异性T细胞免疫反应,且仅极少数与野毒株组具有显著性差异(P<0.05)。结论16HBE细胞被HSV-1突变株M6感染后能够释放募集和激活巨噬细胞的细胞因子,使巨噬细胞携带HSV-1突变株的特异性活化信息,激活了宿主的免疫系统,诱导了宿主的体液免疫和细胞免疫。

基因芯片筛选BPDE转化16HBE相关基因

目的采用基因芯片技术筛选二羟环氧苯并芘(BPDE)转化的人支气管上皮细胞(16HBE)相关基因,探讨该技术在分子毒理学研究中的应用。方法将实验组(BPDE-16HBE)和对照组(16HBE)的mRNA逆转录合成cDNA掺入荧光分子为探针,杂交于H40S基因芯片,分析2组基因的差异表达。结果在4096种人类基因中,BPDE转化的16HBE和正常16HBE间存在差异表达的基因有143条,其中高表达52条,低表达91条。结论基因芯片技术在筛选BPDE转化的16HBE相关基因改变上,具有高通量、高敏感、快速等特点,在毒物的分子致癌机制研究中意义重大。

甲基丙烯酸环氧丙酯致16HBE细胞恶性转化不同时期METTL9基因甲基化状态分析

目的:分析甲基丙烯酸环氧丙酯(GMA)致人支气管上皮(16HBE)细胞恶性转化不同时期甲基转移酶样基因METTL9甲基化状态及其表达情况,并探讨其意义。方法:收获GMA染毒第10代(早期)、20代(中期)、30代(后期)的16HBE细胞,应用甲基化芯片检测METTL9基因在GMA诱导16HBE细胞恶性转化不同时期的甲基化状态,采用实时荧光定量PCR(qPCR)检测该基因在恶性转化不同时期的表达量,并与同期DMSO溶剂对照组细胞比较。结果:甲基化芯片结果显示,对照组第10代和第20代细胞未发生甲基化,第30代细胞发生甲基化;GMA染毒组16HBE细胞在第10代和第20代METTL9基因均发生甲基化(PeakScore>2),而第30代细胞未见甲基化。qPCR结果显示,与同期溶剂对照组相比,GMA染毒组16HBE细胞在第10代和第20代METTL9基因表达量上调(P<0.05);经甲基化转移酶抑制剂5-氮杂-2'-脱氧胞苷(5-Aza-odr)处理后,该基因与同代龄GMA组细胞相比,第10代和第30代METTL9基因的表达量水平均上升(P<0.05),第20代表达水平下降(P<0.05)。结论:METTL9基因可作为GMA诱导16HBE细胞发生恶性转化前、中期的一个特异分子标志。

PM_(2.5)有机提取物经由铁死亡诱导人支气管上皮细胞损伤的研究

目的探讨细颗粒物(PM_(2.5))有机提取物能否诱导人支气管上皮细胞铁死亡。方法通过索氏提取法提取PM_(2.5)中有机物作为受试物,使用BEAS-2B细胞,以0.1%DMSO溶液作为溶剂对照,染毒于不同剂量(2.5、5、10和20μg/mL)的PM_(2.5)有机提取物构建细胞染毒模型;使用铁死亡抑制剂(Ferrostatin-1,Fer-1)构建铁死亡干预模型。通过吸光度法检测PM_(2.5)有机提取物染毒后BEAS-2B细胞存活率、丙二醛(malondialdehyde,MDA)和谷胱甘肽(glutathione,GSH)浓度;通过荧光法检测细胞内Fe2+含量、活性氧(reactive oxygen species,ROS)含量和脂质过氧化物(lipid peroxidation,LPO)含量;通过qRT-PCR方法检测铁死亡相关基因(如GPX4、SLC7A11、ACSL4、FTL和TFRC等)表达。结果与对照组相比,PM_(2.5)有机提取物染毒24 h后,当染毒剂量为10μg/mL时,细胞内Fe2+含量、ROS含量、LPO含量和MDA浓度均出现显著上升;而GSH浓度出现显著下降;qRT-PCR结果显示,细胞暴露于20μg/mL PM_(2.5)有机提取物时,细胞内铁死亡相关基因GPX4显著下调,SLC7A11、ACSL4、FTL和TFRC出现显著性上调。干预实验中,使用铁死亡特异性抑制剂Fer-1干预后上述变化得到明显改善。结论PM_(2.5)有机提取物可能通过诱导细胞铁死亡导致呼吸系统细胞损伤,进而对肺组织产生潜在健康影响。

LncRNA PCA3在甲基丙烯酸环氧丙酯诱导16HBE恶性转化细胞中的表达及意义

目的:探讨长链非编码RNA PCA3(LncRNA PCA3)在甲基丙烯酸环氧丙酯(GMA)诱导的16HBE恶性转化细胞中的表达水平及意义。方法:收获经8μg/mL GMA诱导的第30代16HBE恶性转化细胞及同代龄DMSO溶剂对照组细胞,应用高通量LncRNA芯片比较两组样本表达谱的差异,通过差异倍数、邻近编码基因信息分析等策略初步筛选出16HBE恶性转化细胞中LncRNA PCA3及其最可能的相关蛋白编码基因PRUNE2,采用实时荧光定量PCR(qPCR)和全基因组表达谱芯片分析LncRNA PCA3和PRUNE2的表达量,并与同代龄DMSO对照组细胞比较。结果:LncRNA芯片结果显示,与同代龄DMSO组相比,GMA诱导的16HBE恶性转化细胞中LncRNA PCA3上调7.17倍,PRUNE2下调2.54倍;qPCR结果显示,与同代龄DMSO组[(1.36±0.44)×10^(-5)]相比,GMA诱导的恶性转化细胞[(2.67±0.63)×10^(-5)]中LncRNA PCA3表达上调(P<0.05);全基因组表达谱芯片显示,16HBE恶性转化细胞的PRUNE2表达量(10.95)较DMSO组(19.46)明显下调,与LncRNA芯片结果一致。结论:LncRNA PCA3可作为GMA诱导的16HBE恶性转化细胞中相关特异分子标志之一。

氧化型α1-抗胰蛋白酶对HBE细胞释放炎症因子的影响

目的:探讨氧化型α1-抗胰蛋白酶(Ox-AT)对体外培养人支气管上皮(HBE)细胞炎症因子白细胞介素8(IL-8)和单核细胞趋化蛋白1(MCP-1)释放的影响及可能机制。方法:从人血浆中分离纯化获得天然构型AT(N-AT),加入氧化剂获得Ox-AT;用不同浓度N-AT和Ox-AT分别作用于体外培养的HBE细胞,用ELISA方法检测不同时段培养上清液中IL-8和MCP-1的含量,同时观察NF-κB抑制剂Bay11-7082对Ox-AT引起HBE细胞炎症因子释放的影响。结果:Ox-AT可促进HBE细胞释放IL-8和MCP-1,其促进作用与Ox-AT的浓度及作用时间呈正相关;用0.5 g/L Ox-AT孵育HBE细胞4、10和24 h,其促进HBE细胞分泌IL-8和MCP-1的作用与10μg/L肿瘤坏死因子α(TNF-α)的作用基本一致,而N-AT无刺激HBE细胞分泌IL-8和MCP-1的作用;Ox-AT能显著增加NF-κB活性;Ox-AT的促炎症作用能被NF-κB抑制剂Bay11-7082抑制。结论:Ox-AT是人正常支气管上皮细胞的强致炎因子,机制可能与NF-κB信号通路激活有关。

BPDE诱发16HBE恶性转化过程中eIF3 p36的表达变化

目的探讨二羟环氧苯并芘(BPDE)诱发人支气管上皮细胞(16HBE)恶性转化过程中不同阶段真核生物蛋白翻译启始因子(eIF3p36mRNA)表达水平的变化,为进一步阐明BPDE的分子致癌机理提供线索。方法应用RT-PCR和FQ-PCR方法,检测并分析BPDE诱发16HBE恶性转化不同阶段的eIF3p36mRNA表达量的变化。结果相对于非转化对照细胞,BPDE诱发恶性转化16HBE不同阶段细胞(转化细胞和成瘤细胞)的eIF3p36mR-NA基因表达水平均显著高于对照组(P<0.01或P<0.05),其中BPDE-转化细胞的eIF3p36平均表达量分别是对照细胞的2.3～5.1倍;而BPDE-转化细胞与BPDE-成瘤细胞的eIF3p36平均表达量相比,差别无显著性(P>0.05),提示eIF3p36的异常表达量与BPDE诱发16HBE细胞恶变程度之间存在一定的正向关系。结论BPDE在诱发16HBE细胞恶变过程中,存在明显的eIF3p36的异常表达现象,其表达水平与细胞的恶变程度密切相关,这可能是BPDE诱发人细胞肿瘤的重要分子致癌机理之一。

氯化镉诱发16HBE细胞恶性转化不同阶段P16基因甲基化研究

目的对氯化镉(CdCl2)诱发16HBE细胞系恶性转化不同阶段P16基因启动子区甲基化状况进行研究,探讨镉的表遗传致癌机制。方法从各组CdCl2恶性转化不同阶段及接种裸鼠成瘤的16HBE细胞中提取全基因组DNA,采取甲基化特异性PCR法(Methylation-specific PCR,MSP)检测该基因组P16基因启动子区的甲基化状况,与非转化的16HBE对照细胞进行比较,并用去甲基化因子5-Azac(5-Aza-2’deoxycytidine)处理有异常甲基化的细胞。结果CdCl2恶性转化及接种裸鼠成瘤的16HBE细胞P16抑癌基因启动子区CpG岛存在异常高甲基化现象,且随着细胞恶性程度的增加,甲基化现象有明显升高的趋势,同时发现有异常高甲基化的细胞经去甲基化处理后甲基化现象消失。结论P16基因启动子区的高甲基化导致抑癌基因表达关闭,无法正常发挥细胞增殖周期对细胞分裂和生长的负调控,造成细胞周期失控而导致无限制地细胞增殖,这可能是氯化镉诱导16HBE细胞恶性转化及接种裸鼠成瘤的一种表遗传致癌作用。研究结果可部分解释镉化合物的细胞转化作用及其可能的表遗传致癌机制,以及进一步对甲基化的表型逆转和药物治疗研究提供了重要依据。

GMA诱导16HBE恶性转化细胞中LncRNAEMX2OS的表达及意义

目的:探讨Lnc RNA EMX2OS在甲基丙烯酸环氧丙酯(GMA)诱导的16HBE恶性转化细胞中的表达变化及意义。方法:取GMA诱导的第30代16HBE恶性转化细胞及DMSO对照组细胞,采用高通量Lnc RNA芯片比较两组样本表达谱的差异,并用生物信息学方法筛选出Lnc RNA EMX2OS及其靶向基因EMX2,采用实时荧光定量PCR(q PCR)分析16HBE恶性转化细胞中Lnc RNA EMX2OS和EMX2 m RNA的表达水平,并与对照组细胞比较。结果:Lnc RNA芯片结果显示,与DMSO对照组细胞相比,GMA诱导的16HBE恶性转化细胞中Lnc RNA EMX2OS上调6.01倍;q PCR结果显示,相对于对照细胞,16HBE恶性转化细胞中Lnc RNA EMX2OS表达上调3.37倍,EMX2 m RNA上调1.88倍(P<0.05)。EMX2 m RNA和Lnc RNA EMX2OS表达的变化趋势一致。结论:GMA可以诱导16HBE细胞Lnc RNA EMX2OS表达上调,Lnc RNA EMX2OS可作为GMA诱导的16HBE恶性转化细胞中相关特异分子标志之一。

GMA诱导16HBE细胞恶性转化过程中LINC00472的表达及其意义

目的:探讨在甲基丙烯酸环氧丙酯(GMA)诱导人支气管上皮细胞(16HBE)恶性转化过程中长链非编码RNA LINC00472的表达特征及其生物学意义。方法:以DMSO作为溶剂对照组,实验组采用8μg/mL的GMA染毒处理72 h,重复染毒3次,传代培养,收获两组细胞的第10、20和30代(分别代表前、中、后期)16HBE细胞,采用Arraystar人类LncRNA芯片(v4.0)分析细胞中LINC00472的表达改变,实时荧光定量PCR(qPCR)检测LINC00472和预测靶基因miR-24-3p的相对表达水平。结果:芯片检测结果显示,与同代龄DMSO对照组相比,GMA诱导16HBE细胞恶性转化过程中LINC00472在转化第10代和第20代分别下调2.30倍和3.57倍,第30代上调2.32倍。qPCR检测结果表明,与同代龄对照组相比,LINC00472在早期的相对表达水平差异无统计学意义,而在中期和后期的相对表达水平的变化情况与芯片结果基本一致,其可能的靶基因miR-24-3p在不同时期相对表达水平的差异均具有统计学意义(P<0.05),但差异倍数均<2。结论:LINC00472在GMA诱导16HBE细胞恶性转化的前期表达水平未发生明显改变,而在细胞恶性转化的中期低表达、后期高表达,推测LINC00472可能在GMA诱导16HBE细胞恶性转化后期发挥作用,但LINC00472和miR-24-3p在此过程中是否存在相互作用以及其作用机制有待进一步研究。

镉恶化转化16HBE细胞中核苷酸切除修复基因的表达

目的探讨氯化镉恶性转化人支气管上皮(16HBE)细胞过程中核苷酸切除修复基因ERCC1和ERCC2基因的mRNA和蛋白动态变化规律。方法用反转录-聚合酶链反应(RT-PCR)和免疫组织化学(SP法)检测16HBE细胞、氯化镉恶性转化16HBE细胞不同阶段(第5、15、35代细胞及成瘤细胞)ERCC1和ERCC2基因的mRNA和蛋白的表达情况。结果随着转化代数的增加,ERCC1基因mRNA和蛋白的表达逐渐降低,到第35代细胞后表达明显下降(P<0.01);而ERCC2基因的mRNA和蛋白表达水平在氯化镉恶性转化16HBE细胞过程中差异无统计学意义(P>0.05)。结论镉化物的致癌机制可能与ERCC1基因表达水平下调有关。