一种改造的同时含有preS1,preS2抗原决定簇的乙肝病毒表面抗原

利用PCR方法合成的编码乙肝病毒表面抗原 preS1区氨基酸第 2 1～ 47位和preS2区第 1 2 0～ 1 46位肽段的基因片段同时分别与S基因的 5′端和 3′端 (相当于第 2 2 3位氨基酸 )融合 .融合基因被置于痘苗病毒通用载体 pGJP 5上的P7.5启动子下游 ,并通过体内同源重组 ,经筛选获得重组痘苗病毒vS2SS1 .vS2SS1感染哺乳动物细胞后 ,融合蛋白S2SS1获得表达 .对S2SS1蛋白的表达水平、分泌性、抗原性和颗粒性分析结果表明 ,S2SS1蛋白能够形成同时具有preS1 ,preS2和S抗原性的颗粒 ,并能有效地从细胞中分泌 ,其表达和分泌水平与重组痘苗病毒单独表达的S蛋白接近     

HBV preS/S基因克隆及其在酿酒酵母中的表达

目的:探索利用酿酒酵母系统表达乙型肝炎病毒(HBV)preS／S基因。方法:利用PCR技 术,以HBV病毒DNA为模板,体外扩增HBV preS／S基因。然后构建重组表达载体pESC-preS／S。 用LiAc法转化酿酒酵母YPH50,选取重组菌进行培养,并诱导表达外源蛋白。提取蛋白浓缩后 进行SDS-PAGE分析,并经Western blot分析鉴定。结果:实验结果表明重组菌能够表达HBV preS／S蛋白。结论:利用酿酒酵母系统可成功表达HBV preS／S基因,为制备新型预防性疫苗提供 条件。     

乙型肝炎病毒preS基因DNA免疫小鼠诱导产生抗preS_2抗体

HBV表面蛋白的preS区具有强的免疫原性,对PreS_1特异的T辅助细胞可辅助主蛋白特异的B细胞活化增殖,克服对主蛋白的无反应性,目前带有preS区的基因工程重组疫苗正在研究当中。preS_1和preS_2区各自带有T细胞和B细胞识别位点,PreS_1(21～47)为HBV结合肝细胞受体的位点,抗preS_1(21～47)肽的抗体具有保护作用。根据preS抗原的上述特点,我们选择了preS基因,构建了pCMV_4preS和     

减毒HAV在体外抑制HBV表达HBeAg和HBsAg的实验研究

目的　探索减毒甲型肝炎病毒( HAV) ( H2减毒株)在Hep G2 .2 .15细胞中对乙型肝炎病毒( HBV)表达HBs Ag和HBe Ag的影响。方法　在Hep G2 .2 .15细胞中,加入含3×10 - 2 ( 3×10 4 .5CCID50 / ml) ,3×10 - 3( 3×10 3.5CCID50 / ml)浓度的减毒HAV。按不同疫苗浓度,每4 d换液1次,留取第12和第16天的培养上清液;同时设立对照组。用微粒子酶免分析法检测培养上清液中的HBs Ag和HBe Ag含量。计算减毒HAV在不同浓度,以及不同作用时间长度的条件下,对Hep G2 .2 .15细胞表达HBs Ag和HBe Ag的影响。结果　3×10 - 2 Ampoule/ ml的减毒HAV作用Hep G2 .2 .5细胞12 d后,培养上清液的HBe Ag浓度为( 4 7.2 3±6 .18) S/ CO,低于对照组的( 10 1.15±15 .77) S/ CO,2组比较差异有非常显著性( P<0 .0 1) ;16 d后,上清液HBe Ag含量为( 4 0 .2 7±13.30 ) S/ CO,也显著低于对照组的( 6 5 .85±3.4 6 ) S/ CO( P<0 .0 5 ) ;HBs Ag含量为( 2 .6 8±0 .31) S/ N,低于对照组的( 5 .10±1.2 7)S/ N,差异有显著性( P<0 .0 5 )。而3×10 - 3Ampoule/ ml的减毒HAV作用Hep G2 .2 .15细胞12 d后,培养上清液的HBs Ag浓度与对照组比较有显著性下降( P<0 .0 5 )。结论　一定浓度的减毒HAV可能有直接抑制HBV表达HBs Ag,HBe Ag的作用     

乙型肝炎病毒表面抗原preS2+S基因在Pichia Pastoris酵母系统的分泌表达

拟获得adw2亚型乙型肝炎(乙肝)病毒表面抗原preS2 S基因在PichiaPastor妇酵母分泌型表达系统(pPIC9K)的高效表达。实验首先将adw2亚型乙肝病毒表面抗原preS2 S基因重组到分泌型酵母表达载体(pPIC9K)形成表达质粒,电转化酵母细胞：KM71,G418筛选多拷贝整合克隆。经甲醇诱导表达并用SDS-PAGE电泳及酶免疫法检测表达产物。经100个克隆筛选获得了表达量较高的表达菌株WC4。该菌株甲醇诱导后细胞上清10倍浓缩SDS—PAGE电泳检测显示,细胞上清中有特异蛋白条带,且第6天表达量最高, 表达产物单体分子量为31kD左右。用美国雅培公司AUZYME MONOCLONAL试剂盒估算表达量为2μg／100OD600细胞。上述结果表明,乙肝病毒表面抗原preS2 S基因在本系统中获得了分泌表达。同时检测了酵母细胞裂解液中特异蛋白质的表达,结果发现,自甲醇诱导后第一天即可检测到表达产物,而且除了第6天细胞外表达量高于细胞内外,其余各天的表达水平均表现为细胞内高于细胞外。以上结果提示,利用分泌型酵母表达系统表达乙肝病毒表面抗原在技术上可行,但表达产量偏低,一些蛋白滞留在细胞内未能分泌到培养基中。     

HepG2细胞膜上乙型肝炎病毒前S1蛋白（preS1）结合蛋白的研究

采用pull down技术研究preS1在HepG2细胞膜上的结合蛋白。以原核表达的GST-preS1融合蛋白为探针蛋白,与生物素标记的HepG2细胞裂解液进行pull down试验分离与preS1结合的膜蛋白。Western blot结果显示HepG2细胞膜上有一大小约110kDa蛋白（p110）与preS1结合。通过对比实验证明该蛋白具有较好的组织特异性和种属特异性。研究结果显示该蛋白是HepG2细胞膜上与preS1结合的蛋白,可能与HBV的早期感染过程有关。     

SARS冠状病毒S蛋白噬菌体抗原库的构建及筛选

本研究旨在构建SARS冠状病毒S蛋白特异性噬菌体抗原库,并用于鉴定抗S蛋白单克隆抗体的抗原表位。首先采用PCR技术扩增出SARS冠状病毒S蛋白的全基因,以DNaseI将其随机酶切成50～500bp不同大小的DNA片段。然后将DNA片段平末端化并连接到经过改造的噬菌体表达载体pComb3XSS,经电转化大肠杆菌XL1-Blue和辅助噬菌体感染获得S蛋白的特异性噬菌体抗原库。利用两个抗S蛋白单克隆中和抗体(S-M1和S-M2)对S蛋白抗原库进行富集和筛选。结果表明,我们成功构建库容量为5.7×106的S蛋白噬菌体抗原库。通过对S-M1和S-M2的有效富集和筛选,分别得到14个和15个阳性克隆,序列分析初步揭示了抗体的抗原表位。因此,S蛋白噬菌体抗原库的构建为鉴定S蛋白的抗原表位提供了重要的技术平台,对研发SARS疫苗和诊断试剂具有重要的科学意义和应用价值。     

H1N1流感病毒在微载体培养MDCK细胞上增殖的研究

目的探索MDCK细胞在微载体上的培养条件,并研究H1N1型流感病毒在MDCK细胞上的增殖条件。方法在微载体上培养好MDCK细胞上用H1N1型流感病毒在不同的病毒感染复数(MOI)、胰酶浓度两个关键的病毒增殖条件进行流感病毒在细胞上的增殖研究。结果微载体质量浓度为6 g/L时,MDCK细胞培养密度可以达到4.5×106cells/mL。在MOI为0.05接种流感病毒,胰酶质量浓度4μg/mL,流感病毒在MDCK细胞上可获得较高的滴度。结论 MDCK细胞用微载体培养可以达到较高的细胞密度,可以作为规模化生产新型流感病毒疫苗的主要细胞基质进行进一步的研究。     

含preS2免疫表位的HBsAg基因质粒的构建及表达

目的：应用表位设计构建高效表达乙型肝炎表面抗原含preS2免疫原位基因的真核表达质粒。方法：PCR法从慢性乙型肝炎患者血清中扩增和分离preS2 120-146表位和S基因片段,将两者融合并置于载体pcDNA3.1的巨细胞病（CMV）启动子作用之下,构建真核表达质粒pcDNA-S2S。序列分析和脂质体转染COS-7细胞瞬时表达鉴定。结果：序列测定结果表明插入序列与乙型肝炎病毒中国株全基因参照序列（adr亚型）一致,COS-7细胞瞬时表达鉴定实验中,ELISA检测到preS2-Ag和HBsAg的OD450分别为0.469和0.426。结论：应用表位设计成功地构建了含preS2免疫表位基因的重组质粒pcDNA-S2S所构建质粒能高效表达和分泌目的的蛋白。     

乙肝病毒preS抗原决定簇与核心抗原的融合表达

将乙肝病毒表面抗原的ｐｒｅＳ抗原决定簇片段与核心抗原进行融合,分别构建了在核心抗原中间对应第７５～８３位氨基酸之间的融合及在核心抗原羧端对应第１５６位氨基酸处的融合,并在ｔａｃ启动子的控制下于大肠杆菌中表达。表达产物经ＥＬＩＳＡ检测和ＷｅｓｔｅｒｎＢｌｏｔｔｉｎｇ分析,表明融合蛋白均被表达,其单体分子量大小与推算值一致．电镜观察和ＣｓＣｌ密度梯度超离心测定都表明融合蛋白能形成颗粒,其密度略小于天然的ＨＢｃ颗粒。初步纯化的融合蛋白免疫Ｂａｌｂ／ｃ小鼠;能产生高滴度的抗－ｐｒｅＳ１抗体,表明ＰｒｅＳｌ（２１～４７）在核心抗原ｅｌｌｏｏｐ区的融合能大大提高其免疫原性．     

A modified hepatitis B surface antigen carrying both preS1 and preS2 epitopes

ＴｈｅｅｎｖｅｌｏｐｅｐｒｏｔｅｉｎｏｆｈｅｐａｔｉｔｉｓＢｖｉｒｕｓ(ＨＢＶ)ｃｏｎｓｉｓｔｓｏｆｔｈｒｅｅｐｒｏｔｅｉｎｓ:ｓｍａｌｌ(Ｓ),ｍｉｄｄｌｅ(Ｍ)ａｎｄｌａｒｇｅ(Ｌ)[1].ＴｈｅＳｐｒｏｔｅｉｎｃａｒｒｉｅｓａｌｌｔｈｅｉｎｆｏｒｍａｔｉｏｎｒｅｑｕｉｒｅｄｆｏｒｃｅｌｌｕｌａｒｌｉｐｉｄｓｍｏｂｉｌｉｚａｔｉｏｎ,ｓｕｂｖｉｒａｌｐａｒｔｉｃｌｅｆｏｒｍａｔｉｏｎａｎｄｓｅｃｒｅｔｉｏｎ.Ｉｔｈａｓｂｅｅｎｓｕｃｃｅｓｓｆｕｌｌｙｄｅｖｅｌｏｐｅｄａｓａｃａｒｒｉｅｒｔｏｅｘｐｒｅｓｓｆ…     

表达乙肝病毒包膜中蛋白的嗜甲醇毕赤酵母菌株的构建

巴斯德毕赤酵母是一种很有潜力的真核表达体系。本文报告将已克隆的乙型肝炎病毒ｐｒｅＳ２－Ｓ基因亚克隆于巴斯德毕赤酵母胞内表达质粒ｐＰＩＣ３,构建重组ｐＰＩＣ３／ｐｒｅＳ２－Ｓ质粒,经酶切线性化后,将其用电转化导入酵母细胞内,经ＰＣＲ及ｄｏｔｂｌｏｔ检测,挑选出在染色体上稳定整合了乙肝病毒包膜中蛋白编码基因的嗜甲醇毕赤酵母菌株,为高效表达乙肝病毒包膜中蛋白奠定了基础     

乙型肝炎病毒3’末端缺失的preS/S基因在转基因小鼠中的表达

从乙型肝炎病毒 ａｄｒ亚型的基因组 ＤＮＡ中分离 ３’末端缺失的ｐｒｅＳ／Ｓ基因的 ＤＮＡ片段,构建了由ＣＭＶ启动子控制的真核表达载体。采用受精卵显微注射方法,获得了基因组整合有３’末端缺失的ｐｒｅＳ／Ｓ基因的２个转基因小鼠品系。在不同的时间点采取血清进行了ＥＬＩＳＡ分析,发现在这２个小鼠品系中３’末端缺失的ｐｒｅＳ／Ｓ基因可被表达,而且呈稳定状态。此小鼠品系的建立,对于探讨乙型肝炎病毒３’末端缺失的ｐｒｅＳ／Ｓ基因的表达产物在体内的生物学作用及其与肝细胞内细胞癌基因的转录激活之间的关系有重要意义。     

Antibody response to preS1 in hepatitis-B-virus-induced liver disease and after immunization

Antibodies to the preS1-encoded sequence of hepatitis B virus (HBV) envelope were detected by ELISA using a synthetic peptide analogue of preS1 proteins, in different groups of HBV-infected subjects and also in hepatitis B vaccine recipients. Such antibodies were specifically found in only 1 % of HBsAg chronic carriers including patients with cirrhosis and primary liver cancer. Anti-preS1 were detected in patients with acute hepatitis; in 13 % of the HBsAg⁺ sera obtained before recovery and in 37 % of the sera obtained after recovery.Anti-preS1 antibodies were detected in recipients of a plasma-derived vaccine, but not in those receiving a recombinant vaccine. The results indicate that anti-preS1 is an earlier serum marker of HBV clearance than anti-preS2 and anti-S antibodies.     

不同佐剂对preS2／S乙型肝炎疫苗免疫原性的影响

目的探讨不同佐剂对preS2／S乙型肝炎疫苗免疫原性的影响。方法将BALB／C小鼠随机分为6组：铝屯剂组（S＋AI和S2／S＋A1）、细胞因子佐剂组（S2／S＋CKl、S2／S＋CK2和S2／S＋CK3）及阴性对照组（NG）,用相应抗原且腔免疫各组小鼠,1mL／只,分别于免疫后2、4和6周采血,分离血清,ELISA法检测血清中抗-HBs抗体和preS2圭体水平;wsT一1法检测淋巴细胞增殖情况。结果免疫后2周,铝佐剂组（S＋A1和S2／S＋A1）抗体水平较高,阳转i达100％,而细胞因子佐剂组抗-HBs抗体水平均较低,S2／S＋CK2及S2／S＋CK3组抗体阳转率为0,与NG组比较2异无统计学意义（P〉0．05）;免疫后4周,细胞因子佐剂组抗-HBs抗体水平升高明显,铝佐剂组S2／S＋A1抗体水习显著高于S＋A1（P〈0．05）;免疫后6周,细胞因子佐剂组抗体水平高于铝佐剂组,其中S2／S＋CKl组抗体水平较高免疫后2周,各组小鼠血清中抗-preS2抗体均达到较高水平,各组间差异均无统计学意义（P〉0．05）;免疫后4月和6周,抗体水平均有所下降,但下降不明显;铝佐剂组S＋AI和S2／S＋A1抗-preS2抗体水平差异无统计学意义（P0．05）。免疫后4周,各组小鼠淋巴细胞刺激指数铝佐剂组（S＋A1和S2／S＋A1）低于细胞因子佐剂组,且差异有统t学意义（P〈0．05）,其中S2／S＋CKl组淋巴细胞增殖水平较高。结论不同佐剂的preS2／S乙型肝炎疫苗均能诱导较高水平的抗-HBs和抗-preS2抗体,细胞因子佐剂组淋巴细胞增殖水平显著高于铝佐剂组,为新型乙型肝炎疫l和治疗性乙型肝炎疫苗的研究提供了实验依据。     

Broadly neutralizing anti-HBV antibody binds to non-epitope regions of preS1

Broadly neutralizing anti-hepatitis B virus (HBV) antibody HzKR127 undergoes a fairly large conformational change of CDR H3 loop upon binding to HBV preS1 epitope peptide. In this study, we identified low-affinity antibody-binding sites in the largely unstructured preS1 region by nuclear magnetic resonance and biochemical studies, indicating that the antibody binds to the preS1 region outside the major immune epitope with low affinity. Surface plasma resonance experiments showed that the full-length preS1 has approximately three fold higher affinity for HzKR127 Fab than the preS1 epitope peptide, suggesting that the presence of low-affinity sites in the preS1 region increases the antibody-binding affinity. Therefore, the low-affinity binding of the antibody to non-epitope regions of preS1 may contribute to effective neutralization.     

HBcAg和HBsAg前S1表位肽融合蛋白的表达研究

构建、表达并纯化了HBcAg与HBsAg前S1表位肽融合蛋白BTcs1,为开发新型HBV治疗和预防性疫苗提供实验依据。利用DNA重组技术,构建了HBcAg与HBsAg前S1表位肽融合蛋白原核表达质粒pBTcs1,在大肠杆菌（HB101）中进行表达,用蔗糖密度梯度超速离心对表达产物BTcs1进行纯化,用SDS-PAGE、SEC、WESTERN-BLOT和电镜进行鉴定。结果表明成功构建了HBcAg与HBsAg前S1表位肽融合蛋白原核表达质粒pBTcs1,BTcs1的表达量为20-25 mg/L,DOT-BLOT结果显示BTcs1主要分布在30%-50%蔗糖介质中,SDS-PAGE和SEC结果显示蛋白纯度>95%,WESTERN-BLOT结果显示BTcs1可以与抗HBcAg抗体和抗HBsAg前S1抗体特异杂交,显色条带在约28 kD处,电镜分析表明BTcs1可以自主组装成病毒样颗粒（VLP）,直径约为30-34 nm。本研究为进一步探讨BTcs1的功能及应用奠定了基础。     

Genotyping of hepatitis B virus in Malaysia based on the nucleotide sequence of preS and S genes

Hepatitis B virus (HBV) has been classified into eight genotypes, designated A-H. These genotypes are known to have distinct geographic distributions. The clinical importance of genotype-related differences in the pathogenicity of HBV has been revealed recently. In Malaysia, the current distribution of HBV remains unclear. The aim of this study was to determine the genotypes and subtypes of HBV by using PCR, followed by DNA sequencing, as well as to analyse the mutations in the immunodominant region of preS and S proteins. The S gene sequence was determined from HBV DNA of four apparently healthy blood donors' sera and three sera from asymptomatic chronic hepatitis B carriers. Of this batch of sera, the preS gene sequence was obtained from HBV DNA from three out of the four blood donors and two out of the three chronic carriers. Due to insufficient sera, we had to resort to using sera from another blood donor to make up for the sixth DNA sequence of the preS gene. Based on the comparative analysis of the preS sequences with the reported sequences in the GenBank database, HBV DNA from two normal carriers was classified as genotype C. Genotype B was assigned to HBV from one blood donor and two hepatitis B chronic carriers, whereas HBV of one chronic carrier was of genotype D. Based on the S gene sequences, HBV from three blood donors was of genotype C, that of one blood donor and one chronic carrier was of genotype B, and the remaining, of genotype D. In the five cases where both preS and S gene sequences were determined, the genotypes assigned based on either the preS or S gene sequences were in concordance. The nature of the deduced amino acid (aa) sequences at positions 125, 127, 134, 143, 159, 161 and 168 of the S gene enabled the classification of these sequences into subtypes, namely, adrq+, adw2 and ayw2. The clustering of our DNA sequences into genotype groups corresponded to their respective subtype, that is, adw2 in genotype B, adrq in genotype C and ayw in genotype D. Analysis of the point mutations revealed that five of the sequences contained aa substitutions at immunodominant epitopes involved in B or/and T cell recognition. In conclusion, despite the low numbers of samples studied, due to budget constraints, these data are still worthwhile reporting, as it is important for the control of HBV infections. In addition, the genotype and mutational data obtained in this study may be useful for designing new treatment regimes for HBV patients.     

N-terminal myristylation of HBV preS1 domain enhances receptor recognition.

The N-terminal portion of the large envelope protein of the human hepatitis B virus (HBV), the preS1 domain, plays a fundamental role in cell attachment and infectivity. Recent investigations have suggested that myristylation of preS1 Gly2 residue is essential for viral infectivity, but the importance of this post-translational modification on HBV-receptor interaction has not been elucidated completely. In this study we produced, using stepwise solid-phase chemical synthesis, the entire preS1[1-119] domain (adw2 subtype), and compared its receptor binding activity with the myristylated form, myristyl-preS1[2-119] in order to define the importance of fatty acid modification. Both synthetic proteins were fully characterized in terms of structural identity using TOF-MALDI mass spectrometry and analysis of tryptic fragments. Circular dichroism measurements indicated a low content of ordered structure in the preS1 protein, while the propensity of the myristylated derivative to assume a conformationally defined structure was more evident. HBV-receptor binding assays performed with plasma membranes preparations from the hepatocyte carcinoma cell line HepG2 clearly showed that the preS1[1-119] domain recognizes the HBV receptor, and confirmed that binding is occurring through the 21-47 region. The myristylated derivative recognized HBV receptor preparations with higher affinity than the preS1 domain, suggesting that the conformational transitions induced in the preS1 moiety by fatty acid post-translational modification are important for efficient attachment of viral particles to HBV receptors.