白花香莲解毒颗粒对HBV全基因组1.3倍体细胞模型病毒复制与表达的影响

目的:观察白花香莲解毒颗粒对HBV全基因组1. 3倍体Hep G2细胞模型(HBV 1. 3P)病毒复制与表达的影响。方法:按照白花香莲解毒颗粒最优提取工艺制备稠膏,并使用无菌纯水配制为0. 1g稠膏/ml母液,滤纸及0. 45μM、0. 22μM孔径PVDF超滤膜依次过滤后,应用MEM完全培养基稀释为8个浓度梯度的细胞干预液。CCK-8法测定细胞干预液对HBV 1. 3P增殖的抑制率; q PCR法检测干预24h、48h后细胞上清液中HBV DNA水平;化学发光法检测细胞上清液中HBs Ag、HBeAg表达量;免疫荧光法测定细胞内HBs Ag表达强度。结果:(1)白花香莲解毒颗粒的去乙酰车叶草酸甲酯含量为1. 23mg/g。(2)CCK-8法的最佳检测时间是加入试剂后2h,适宜细胞数范围是2×103～1. 2×104个。在0. 04～0. 625mg/ml范围内白花香莲解毒颗粒对HBV 1. 3P增殖无明显抑制作用;在1. 25～5mg/ml范围内则会显著抑制HBV 1. 3P增殖。(3)0. 625mg/ml是白花香莲解毒颗粒的最佳药物浓度,其干预48h HBV DNA的抑制率达(41. 86±5. 35)%,并能显著降低细胞上清液及细胞内HBs Ag、HBeAg的表达。结论:白花香莲解毒颗粒体外具能较强地抑制HBV复制及HBs Ag、HBeAg表达的生物活性。

HBV 1.3倍基因组HepG2稳转细胞模型优势单克隆株的筛选及鉴定

背景乙型肝炎病毒(hepatitis B virus,HBV)体外感染模型是开展HBV生命周期、致病机理、药物筛选等研究的基础.随着临床抗HBV治疗进入“功能性治愈”“完全治愈”新时代的趋势,对能稳定模拟共价闭合环状DNA分子(covalently closed circular DNA,cccDNA)转录机制,乙型肝炎病毒X蛋白(hepatitis B virus X protein,HBx)致病机理的细胞模型的需求日益迫切.HBV1.3倍(1.3-fold HBV)全基因组包含了全部HBV生物信息,能依赖自身启动子启动转录过程,支持cccDNA形成和完整病毒复制,最接近于HBV体内感染状态下的生命周期.慢病毒转染是一种以慢病毒为载体,将外源分子如DNA,RNA等导入真核细胞的技术,可形成稳定转染.目的采用慢病毒转染技术构建HBV 1.3倍基因组HepG2稳转细胞模型,筛选并鉴定出能稳定、高效表达HBV生物标志物的优势单克隆株.方法构建含1.3-fold HBV基因组信息的慢病毒质粒并包装慢病毒;以最佳感染复数(MOI)值将1.3-fold HBV慢病毒液侵染靶细胞HepG2,以抗生素杀稻瘟菌素(blasticidin,BSD)最佳筛选剂量筛选出稳定整合1.3-fold HBV基因的HepG2细胞系(1.3-fold HBV-HepG2),继而采用PCR法鉴定该细胞模型中的HBV DNA序列.将1.3-fold HBV-HepG2稳转细胞进行培养并挑选出9株候选阳性单克隆,通过测序各单克隆细胞的侧翼序列,以确定9株候选阳性单克隆相应的基因组在HepG2细胞基因组中的插入位置,再根据各候选单克隆株表达HBsAg、HBeAg的水平,筛选出最优势单克隆株.将该优势单克隆株与HepG2.2.15细胞株分别持续培养20代,比较这两种细胞株表达HBsAg、HBeAg、HBx、cccDNA、HBV DNA等标志物的水平及稳定性.结果(1)将慢病毒pLenti-BSD-1.3-fold HBV以MOI=30的参数侵染HepG2细胞,72 h后加入BSD抗生素(终浓度1μg/mL)进行筛选,连续培养15-20 d后,获得1.3-fold HBV-HepG2稳转细胞系,PCR鉴定出HBV DNA序列;(2)在挑选出的9株候选阳性单克隆中,编号A14的细胞株(命名为HepGA14)的HBsAg、HBeAg表达水平最高,分别为24.28 IU/mL、39.62 NCU/mL,其插入HepG2基因组位置为1:166461695-166461715,确定为优势单克隆株;(3)与HepG2.2.15细胞株比较,HepGA14优势单克隆株1-20代能稳定、高表达HBsAg、HBeAg、HBx、HBV DNA、cccDNA,差异均具有统计学意义(P<0.05).结论成功构建并筛选出1.3-fold HBV基因组HepG2稳转细胞模型优势单克隆株HepGA14,这为后续开展HBV-宿主关系、发病机制及药物筛选等奠定良好的基础.

Expression of hepatitis B virus 1.3-fold genome plasmid in an SV40 T-antigen-immortalized mouse hepatic cell line

AIM:To investigate the expression of the hepatitis B virus(HBV)1.3-fold genome plasmid(pHBV1.3)in an immortalized mouse hepatic cell line induced by SV40T-antigen(SV40T)expression.METHODS:Mouse hepatic cells were isolated from mouse liver tissue fragments from 3-5 d old Kunming mice by the direct collagenase digestion method and cultured in vitro.The pRSV-T plasmid was transfected into mouse hepatic cells to establish an SV40LT-immortalized mouse hepatic cell line.The SV40LT-immortalized mouse hepatic cells were identified and transfected with the pHBV1.3 plasmid.The levels of hepatitis B surface antigen(HBsAg)and hepatitis B e antigen(HBeAg)in the supernatant were determined by an electrochemiluminescence immunoassay at 24,48,72 and 96 h after transfection.The expressions of HBsAg and hepatitis B c antigen(HBcAg)in the cells were investigated by indirect immunofluorescence analysis.The presence of HBV DNA replication intermediates in the transfected cells and viral particles in the supernatant of the transfected cell cultures was monitored using the Southern hybridization assay and transmission electronic microscopy,respectively.RESULTS:The pRSV-T plasmid was used to immortalize mouse hepatocytes and an SV40LT-immortalized mouse hepatic cell line was successfully established.SV40LT-immortalized mouse hepatic cells have the same morphology and growth characteristics as primary mouse hepatic cells can be subcultured and produce albumin and cytokeratin-18 in vitro.Immortalized mouse hepatic cells did not show the characteristics of tumor cells,as alpha-fetoprotein levels were comparable(0.58±0.37 vs 0.61±0.31,P=0.37).SV40LTimmortalized mouse hepatic cells were then transfected with the pHBV1.3 plasmid,and it was found that the HBV genome replicated in SV40LT-immortalized mouse hepatic cells.The levels of HBsAg and HBeAg continuously increased in the supernatant after the transfection of pHBV1.3,and began to decrease 72 h after transfection.The expressions of HBsAg and HBcAg were observed in the pHBV1.3-transfected cells.HBV DNA replication intermediates were also observed at72 h after transfection,including relaxed circular DNA,double-stranded DNA and single-stranded DNA.Furthermore,a few 42 nm Dane particles,as well as many22 nm subviral particles with a spherical or filamentous shape,were detected in the supernatant.CONCLUSION:SV40T expression can immortalize mouse hepatic cells,and the pHBV1.3-transfected SV40T-immortalized mouse hepatic cell line can be a new in vitro cell model.

PCVD低水峰光纤的制备与性能

介绍了PCVD低水峰光纤生产工艺和其材料组成、结构及性能,在生产普通单模光纤的基础上,通过优化PCVD工艺,成功抑制了普通单模光纤在1383nm由于羟基(OH)吸收造成的水峰损耗。光纤中功能梯度的芯层和光学包层、高纯均匀的机械包层和性能优越的双层涂覆层,使PCVD低水峰光纤各项性能指标全面达到或优于最严格的ITU-TG.652.C/D和IEC60793-2-50B.1.3光纤标准要求。

1.3倍乙型肝炎病毒全基因真核表达载体的构建及其在Bewo细胞中的表达

目的构建1.3倍乙型肝炎病毒(HBV)全基因的真核表达载体pcDNA3.1(+)-HBV1.3,并观察其在Bewo细胞中的表达。方法以质粒pMD18T-HBV上的HBV DNA序列为模板,构建1.3倍HBV全基因序列,将其插入到真核表达载体pcDNA3.1(+),用酶切、PCR及测序鉴定,并把该载体转染Bewo细胞,以Western免疫印迹、微粒子酶免疫分析法(MEIA)和荧光定量PCR法分别检测胞内和上清中HBsAg、HBeAg蛋白的表达及HBV DNA水平。结果通过酶切、PCR及测序鉴定,成功构建1.3倍HBV全基因表达载体,该载体可以在Bewo细胞系中表达和分泌HBsAg与HBeAg,并可检测到高水平的HBV DNA。结论成功构建了1.3倍HBV全基因真核表达载体pcDNA3.1(+)-HBV1.3,为研究胞内HBV宫内感染奠定了基础。

1.3倍乙型肝炎病毒全基因真核表达载体的构建及在HepG2细胞中的表达

目的 构建1.3倍全基因乙型肝炎病毒(HBV)真核细胞表达载体,观察其在HepG2细胞中的表达。方法 从pGEM—HBV载体上将约4.1kb的1.3倍HBV全基因克隆至真核表达载体pCDNA3.1的Hind Ⅲ位点,将构建的pHBV经Lipofectamine2000导入肝癌细胞系HepG2细胞中。分别在转染后24、48、72h测定HepG2上清液乙型肝炎表面抗原(HBsAg)、乙型肝炎e抗原(HBeAg)的表达,细胞内HBsAg、乙型肝炎核心抗原(HBcAg)免疫组织化学染色,Southern、northern杂交鉴定HBV的复制与表达。结果成功构建了1.3倍HBV全基因真核表达载体,转染后24、48、72h细胞上清液中HBsAg分别为5.36±0.25,13.42±1.24,7.52±0.43;HBeAg分别为9.16±0.32,22.75±1.49,15.96±1.03。免疫荧光结果显示转染后24 h细胞内HBsAg表达最强,主要呈胞浆内弥漫性分布,HBcAg为核浆型分布,以浆型为主。Southern、northern杂交均证实细胞内存在各种病毒复制中间体和特异的病毒复制转录物。结论 该表达载体可介导高水平病毒复制,其转染细胞可望成为一种新型的HBV 体外感染模型。