Stuyver L, Van Geyt C, De Gendt S, Van Reybroeck G, Zoulim F, Leroux-Roels G, Rossau R
Innogenetics, N.V., Ghent, Belgium.
J Clin Microbiol. 2000 Feb;38(2):702-7. doi: 10.1128/JCM.38.2.702-707.2000.
Since the introduction of antiviral compounds such as lamivudine and famciclovir in the treatment schedules of patients with chronic hepatitis B virus (HBV) infection, the accumulation of a variety of mutations in the HBV polymerase gene has been observed. The selection of these mutations is generally considered the cause of viral nonresponsiveness and treatment failure. Therefore, the detection of these mutations is of clinical importance. Previously genotyped HBV strains isolated from treated and untreated patients were amplified with primers specific for the HBV polymerase region from amino acids 465 to 562. Amplified products were cloned into plasmid vectors. The clones were used as reference strains. A set of 38 highly specific oligonucleotide probes covering three different codon positions, L528M, M552V/I, and V/L/M555I, were selected. These probes were applied as 19 different lines on a membrane strip. The strips were then hybridized with PCR fragments from the reference panel, revealing the amino acids at the three codon positions simultaneously for each clone. PCR products generated from two patients infected with HBV genotypes A and C, respectively, and treated with nucleoside analogs were analyzed on these strips. A gradual increase in genetic HBV polymerase complexity was observed in follow-up samples compared to that in pretreatment samples. Additional analysis of HBV polymerase DNA fragments in recombinant plasmid clones demonstrated the existence of (i) clones with double mutations, (ii) clones with single mutations at either codon 528, 552, or 555, and (iii) the simultaneous occurrence of two or more viral populations within one sample. This line probe assay detected the complex quasispecies nature of HBV and provided some insight into the dynamics of resistance mutations.
自从将拉米夫定和泛昔洛韦等抗病毒化合物引入慢性乙型肝炎病毒(HBV)感染患者的治疗方案以来,已观察到HBV聚合酶基因中出现了多种突变。这些突变的选择通常被认为是病毒无反应性和治疗失败的原因。因此,检测这些突变具有临床重要性。以前从接受治疗和未接受治疗的患者中分离出的已进行基因分型的HBV毒株,用针对HBV聚合酶区域氨基酸465至562的特异性引物进行扩增。扩增产物被克隆到质粒载体中。这些克隆用作参考菌株。选择了一组38个高度特异性的寡核苷酸探针,覆盖三个不同的密码子位置,即L528M、M552V/I和V/L/M555I。这些探针以19种不同的排列方式应用于膜条上。然后将这些膜条与参考样本的PCR片段杂交,同时揭示每个克隆在三个密码子位置的氨基酸。分别对两名感染HBV A基因型和C基因型并接受核苷类似物治疗的患者产生的PCR产物在这些膜条上进行分析。与治疗前样本相比,在随访样本中观察到HBV聚合酶基因复杂性逐渐增加。对重组质粒克隆中的HBV聚合酶DNA片段进行的进一步分析表明存在:(i)具有双重突变的克隆;(ii)在密码子528、552或555处具有单一突变的克隆;以及(iii)一个样本中同时出现两个或更多病毒群体。这种线性探针分析检测到了HBV复杂的准种性质,并为耐药突变的动态变化提供了一些见解。