应用LNA-PCR法检测乙型肝炎病毒阿德福韦酯耐药位点基因突变

目的:建立简便、快速、灵敏的锁核酸(locked nucleic acid,LNA)探针实时荧光聚合酶链反应(PCR)检测方法,检测乙型肝炎病毒(hepatitis B virus,HBV)阿德福韦酯(Adefovir dipivoxil,ADV)耐药相关位点(rtA181V、rtN236T)突变。方法:通过基因测序筛选阳性样本,进而构建ADV rt181和rt236位点野生株和突变株重组质粒,设计包含扩增阿德福韦酯rtA181V和rtN236T耐药位点在内的特异性引物和LNA荧光探针,以构建的重组质粒为标准品建立实时荧光PCR反应体系,并通过与基因测序平行检测血清样本以判断检测方法的可行性与准确性。结果:所建立的LNA-PCR法能够检测102copies/ml的HBV中ADV基因突变,同时具备较高的特异性。通过对89例ADV治疗一年后HBV阳性临床样本进行检测,有8例(8.98%)rtA181V突变、5例(5.61%)rtN236T突变、2例(2.24%)rtA181V和rtN236T混合突变,检测结果与测序结果一致。结论:所建立的LNA-PCR法是一种简便、快速、灵敏的基因突变检测方法,能有效的区分单碱基突变,对慢性乙型肝炎患者德福韦治疗过程中耐药突变的监控和抗病毒药物的调整具有指导意义。     

拉米夫定联合阿德福韦酯治疗乙型肝炎的疗效及对HBV耐药基因突变的影响

目的探讨拉米夫定联合阿德福韦酯治疗慢性乙型肝炎的疗效,并利用反向点杂交技术检测其对HBV基因耐药突变的影响。方法156例慢性乙型肝炎患者随机分为2组：对照组70例采用拉米夫定治疗,治疗组86例采用拉米夫定联合阿德福韦酯治疗。采用实时荧光定量PCR和ELISA检测2组治疗前和治疗后48周的HBV-DNA载量和HBeAg并采用PCR-反向点杂交技术（PCR-RDB）检测2组治疗48周后的HBV耐药基因突变情况。结果对照组及治疗组在经过48周治疗后HBV-DNA载量较治疗前都明显下降（P 〈0. 05）,治疗组HBV-DNA载量明显低于对照组（P〈0.05）。治疗组经过48周治疗后HBeAg的阴转率为54.9%,明显高于对照组15.0% （P 〈0.05）。对照组44例未出现耐药突变,25例拉米夫定耐药突变中rtL180M突变6例,rtM204V/I突变11例,rtL180M ＋ rtM204V/I混合突变8例;阿德福韦酯HN236T耐药突变1例。治疗组77例未出现耐药突变;5例拉米夫定耐药突变中rtL180M突变1例,rtM204V/I突变2例,rtL180M ＋ rtM204V/I混合突变2例;阿德福韦酯耐药突变中rtN236T突变1例;拉米夫定和阿德福韦酯交叉耐药rtN236T ＋ rtM204V/I混合突变3例。对照组耐药突变率为37. 1%（26/70）明显髙于治疗组的10.5%（9/86）（P〈0.05）。结论拉米夫定联合阿德福韦酯对治疗慢性乙型肝炎方面有效并在减少HBV耐药基因突变方面具有一定的作用。     

乙肝治疗耐药基因突变的焦磷酸测序技术诊断

目的：建立焦磷酸测序技术检测拉米夫定和阿德福韦酯治疗乙肝所致乙肝病毒基因耐药突变的定量检测方法,为临床乙肝耐药诊断和治疗提供依据。方法：针对乙肝病毒DNA聚合酶基因序列上4个常见基因突变位点的6种突变形式,分别克隆构建野生型和突变型质粒作为标准品,应用生物信息学手段设计目标基因通用PCR引物和各突变点的焦磷酸测序引物,建立焦磷酸测序的突变检测方法。对接受拉米夫定、阿德福韦酯治疗的慢性乙型肝炎患者血清标本进行检测。结果：构建了乙肝病毒四种常见耐药性突变的标准株和变异株克隆,建立了分别或同时检测拉米夫定、阿德福韦酯耐药突变的焦磷酸测序方法,对68例临床耐药或疑似耐药的患者血清标本进行检测,双脱氧测序验证,检出拉米夫定耐药突变32例,阿德福韦酯耐药突变5例,其中焦磷酸测序检出20例为混合突变,而双脱氧测序显示为6例。结论：成功建立了焦磷酸测序定量检测拉米夫定、阿德福韦酯耐药基因突变的方法,构建了乙肝病毒耐药基因突变的标准质粒,为临床动态监测乙肝病毒变异病毒株、指导合理用药奠定了基础。     

反向斑点杂交法检测HBV基本核心启动子区A1762T／G1764A突变的实验研究

目的建立一种基于尼龙膜的反向斑点杂交法,用于检测乙型肝炎病毒（HBV）基本核心启动子区（BCP）A1762T／G1764A突变。方法根据我国HBV主要流行的基因型为B和C,从GenBank上查出4种HBVBCP序列。利用在线工具ClustalW进行比对,针对该突变位点设计引物和检测探针。探针经合成和修饰后点在带正电的尼龙膜上。将反向斑点杂交法结合地高辛检测试剂盒用于检测A1762T／G1764A突变,以测序法确定该区域序列的标本为检测对象。结果反向斑点杂交法分别检测5例A1762／G1764病毒株、2例T1762／G1764病毒株、5例A1762／A1764病毒株和4例T1762／A1764病毒株,结果与测序完全相同。结论应用本方法可以快速、准确地HBV相关的热点突变。     

In Vitro Anti-hepatitis B Virus Activity of 2',3'-Dideoxyguanosine

2',3'-dideoxyguanosine(DoG) has been demonstrated to inhibit duck hepatitis B virus(DHBV) replication in vivo in a duck model of HBV infection. In the current study, the in vitro antiviral effects of DoG on human and animal hepadnaviruses were investigated. Our results showed that DoG effectively inhibited HBV, DHBV, and woodchuck hepatitis virus(WHV)replication in hepatocyte-derived cells in a dose-dependent manner, with 50% effective concentrations(EC50) of 0.3 ± 0.05, 6.82 ± 0.25, and 23.0 ± 1.5 lmol/L, respectively. Similar to other hepadnaviral DNA polymerase inhibitors,DoG did not alter the levels of intracellular viral RNA but induced the accumulation of a less-than-full-length viral RNA species, which was recently demonstrated to be generated by RNase H cleavage of pgRNA. Furthermore, using a transient transfection assay, DoG showed similar antiviral activity against HBV wild-type, 3TC-resistant rtA181 V, and adefovirresistant rtN236T mutants. Our results suggest that DoG has potential as a nucleoside analogue drug with anti-HBV activity.     

Molecular mechanisms of adefovir sensitivity and resistance in HBV polymerase mutants: a molecular dynamics study

Molecular modeling studies of adefovir diphosphate with the wild type and the mutant HBV polymerase-DNA complex demonstrated that the increase in adefovir sensitivity toward HBV polymerase mutants (rtL180M, rtM204V/I, rtL180M-M204V/I) is a result of increased van der Waals interaction and is supplemented by the decreased affinity of natural substrate toward the mutant HBV polymerase. In the case of rtN236T mutant, loss of two hydrogen bonds accompanied by significant decrease in electrostatic interactions is observed, which explains the observed decrease in drug sensitivity and binding affinity of adefovir diphosphate toward the rtN236T mutant HBV polymerase.     

黑龙江地区400例乙型肝炎病毒基因分型与耐药突变研究

目的:运用基因芯片技术分析黑龙江地区乙型肝炎病毒(HBV)基因型分布特征及基因耐药变异情况。方法:随机选择2012年11月至2015年11月本医院乙型肝炎患者血清样本400例,应用PCR-反向点杂交的基因芯片技术对样本血清中HBV基因型及常见4类抗病毒药物耐药相关的多个位点进行检测,并进行数据分析。结果:400例样本中基因型分布以C型为主占83.25%(333例),B型7.25%(29例)、D型0.25%(1例)及混合基因型2.75%(11例);耐药突变位点检出188例,总耐药率为45.19%,其中突变位点236T(4.61%)提示阿德福韦酯单项耐药,耐药率为5.82%(10例),与拉米夫定耐药相关的为126例,突变位点以rt204I和(rt180M+rt240V)为主,显著高于其他抗病毒类药物,耐药风险较高。结论:黑龙江地区乙型肝炎基因分型以C为主,B型和其它混合型较少,且更容易对拉米夫定产生耐药。     

拉米夫定联合阿德福韦酯治疗前后乙型肝炎病毒的全基因组序列分析

目的探究拉米夫定治疗反弹后联合阿德福韦酯治疗前后乙型肝炎全基因组序列变化。方法分别提取服用拉米夫定治疗24周反弹后和阿德福韦酯辅助治疗24周后的患者2份血清病毒核酸,用聚合酶链反应扩增核酸后进行全基因组测序分析。结果测序结果显示,共计有29个氨基酸发生了突变,其中,S区突变点有5个（17．2％）,C区突变点有12个（41．3％）,P区突变点有6个（20．6％）,X区突变点有6个（20．6％）,其中P区与拉米夫定的相关位点173和204位点发生了突变翻转,但服用阿德福韦后出现了与之相关的突变位点（181、214、236和237位点）。结论核苷酸药物的使用和HBV基因耐药突变密切相关,定期检测HBV基因突变对于合理使用核苷酸药物具有重要意义。     

慢性乙型肝炎病毒耐药突变体研究

在治疗慢性乙型肝炎的核苷类似物的用药过程中,筛选耐药突变体.选定1名从未接受抗病毒治疗慢性乙型肝炎患者,用抗病毒核酸类药物治疗,不同治疗时期提取血清HBV DNA,用引物P1(5′-AAGGG-TATCTTGCCCGTTTGTCGTA-3′)和P2(5′-AAGCAGGATAGCCACAGA-3′)为第1轮,P3(5′-AAGGCACTTGTAT-TCCCATCCGAG-3′)和P4(5′-AAGGTCTATTTACAGGGGA-3′)为第2轮引物扩增筛选耐药突变体.在18周和22周分别检测到突变体LMV rtH69T(YMDDlocus)和LMV rtT184T(YMDDlocus)、LMV rtM204I(YMDDlocus).在60周和70周分别检测到ADV T213S、ADV T222A、ADV K212T和ADV S196L、ADV S242H,其中ADV S196L和ADV S242H 2种突变体是首次检测到.HBV核苷酸类似物耐药突变体筛选,对研究HBV耐药的分子机制有帮助.     

Pegylated interferon alpha-2a (40 kDa) in the treatment of chronic hepatitis B

Chronic hepatitis B virus (HBV) is a serious and life-threatening disease afflicting 350 million of the world's population. So far, current monotherapy with conventional interferon-alpha, lamivudine, and adefovir dipivoxil remains unsatisfactory. In addition, the use of conventional interferon-alpha needs to be administered subcutaneously daily or thrice weekly and is associated with frequent adverse events. Although nucleoside-nucleotide analogs such as lamivudine and adefovir dipivoxil are well tolerated and can normalize serum alanine aminotransaminase rapidly, 1-year therapy with either lamivudine or adefovir dipivoxil results in low hepatitis B e antigen (HBeAg) seroconversion rates. In HBeAg negative patients, most of the patients would relapse after lamivudine has been discontinued. Pegylated interferon alpha-2a, an immunomodulatory agent, is a new drug that has just completed phase III clinical trials for the treatment of both HBeAg positive and HBeAg negative chronic HBV infection. The advantage of pegylated interferon alpha-2a in achieving sustained virological response over nucleoside-nucleotide analogs is particularly obvious in the HBeAg negative group. In both of these phase III studies, sustained off-treatment response is superior to the use of lamivudine. These recent data put pegylated interferon alpha-2a as the first choice of anti-HBV therapy, especially in young and motivated patients with chronic HBV infection.     

阿德福韦酯联合拉米夫定治疗乙型肝炎DNA 阳性肝硬化疗效观察

目的:探讨阿德福韦酯联合拉米夫定治疗HBV DNA阳性乙型肝炎肝硬化的疗效。方法:46例HBV DNA阳性乙肝肝硬化患者随机分为对照组及观察组。在保肝等对症治疗基础上,观察组22例患者联用阿德福韦酯与拉米夫定,对照组24例患者予阿德福韦酯,总疗程均为48周。结果:在治疗12周后,观察组与对照组HBV DNA转阴率分别为54.5%、20.8%(P<0.05),ALT复常率分别为63.6%、33.3%(P<0.05)。治疗24周、48周后上述指标无统计学差异。两组患者未见明显药物不良反应。结论:阿德福韦酯联合拉米夫定治疗HBV DNA阳性乙型肝炎肝硬化起效快,降低病毒载量疗效佳,安全性好。     

Multiplex locked nucleic acid probes for analysis of hepatitis B virus mutants using real-time PCR

Current methods of detecting hepatitis B virus (HBV) mutations are time consuming, labor intensive, and not suitable for screening large numbers of samples. A multiplex real-time PCR approach presented in this article is a hepatitis B virus quantification method that employs the SYBR Green I dye in conjunction with wild-type HBV sequence-specific locked nucleic acid (LNA) probes. The three short LNA probes distinguished the wild-type strain or three groups of mutants (rt173, rt180/rt181, and rt202/rt204) depending on perfect-match hybrids or mismatch within one template simultaneously. Primers labeled with quencher minimized the background signals. This sensitive approach could quantify 10(2) copies of HBV virus, and as low as 1% mutants among 10(4) copies of wild-type HBV could be identified. The technique is handy and convenient, requiring only 3.5 h to analyze 30 hepatitis B surface antigen-positive serum samples. The HBV isolates were confirmed by direct sequencing. Our data indicate that real-time PCR with SYBR Green I dye is a reliable, rapid, and convenient technique for HBV quantification. Furthermore, by incorporating fluorescent LNA probes, this technique becomes handy in identifying and classifying mutations in the HBV polymerase gene. Being sensitive, specific, accurate, rapid, and convenient in nature, this technique could be a suitable diagnostic tool with wide application particularly in cases in which large volumes of clinical samples are handled.