Carman W F, Van Deursen F J, Mimms L T, Hardie D, Coppola R, Decker R, Sanders R
Institute of Virology, Glasgow, Scotland.
Hepatology. 1997 Dec;26(6):1658-66. doi: 10.1002/hep.510260640.
Three assays, one based on monoclonal antibodies and the others on polyclonal antibodies, were employed to detect hepatitis B surface antigen (HBsAg)-reactive samples in both vaccinated and unvaccinated populations in areas of the world where hepatitis B virus (HBV) is endemic. Any discordant sera were tested by polymerase chain reaction (PCR) to confirm current infection, and sequence data were obtained from the DNA coding for the major hydrophilic region (MHR) of HBsAg of those samples positive for PCR. In all countries studied, samples that reacted in one HBsAg assay but not another were found. In the most extreme case, about 5% of viremic sera in Papua New Guinea were nonreactive in the monoclonal HBsAg assay; 9 of the 13 PCR-positive samples had novel or once-described variants, or a variant out of its usual genotype context. In South Africa, samples with sequences of subtype ayw2 reacted poorly, particularly in the polyclonal assay. Two had novel variants. In Sardinia, antibody to hepatitis B core antigen (anti-HBc) was analyzed as a marker of infection. A significant proportion of anti-HBc-positive, but monoclonal HBsAg-negative, vaccinees and unvaccinated persons were found to be PCR positive, as were some individuals without any markers of hepatitis B virus infection. Five more novel variants were found in these groups. There are implications for the design of HBsAg assays, which may have to be modified according to local sequence variability. Not all discordant samples were explained by variants, indicating that assay sensitivity is fundamental to diagnostic efficacy. Overall, this study defined 16 novel variants and 2 new potential epitope clusters.
采用三种检测方法,一种基于单克隆抗体,另外两种基于多克隆抗体,对乙型肝炎病毒(HBV)流行地区接种疫苗和未接种疫苗人群中的乙型肝炎表面抗原(HBsAg)反应性样本进行检测。对任何不一致的血清进行聚合酶链反应(PCR)检测以确认当前感染情况,并从PCR阳性样本的HBsAg主要亲水区(MHR)编码DNA中获取序列数据。在所研究的所有国家中,均发现了在一种HBsAg检测中呈反应性而在另一种检测中无反应性的样本。在最极端的情况下,巴布亚新几内亚约5%的病毒血症血清在单克隆HBsAg检测中无反应性;13个PCR阳性样本中有9个具有新的或曾被描述过的变异体,或其变异体不在其通常的基因型背景中。在南非,ayw2亚型序列的样本反应较差,尤其是在多克隆检测中。有两个样本具有新的变异体。在撒丁岛,对乙型肝炎核心抗原抗体(抗-HBc)作为感染标志物进行了分析。发现相当一部分抗-HBc阳性但单克隆HBsAg阴性的接种疫苗者和未接种疫苗者PCR呈阳性,一些无乙型肝炎病毒感染任何标志物的个体也是如此。在这些组中又发现了另外五个新的变异体。这对HBsAg检测的设计有影响,可能必须根据当地的序列变异性进行修改。并非所有不一致的样本都能用变异体来解释,这表明检测灵敏度对诊断效力至关重要。总体而言,本研究确定了16个新的变异体和2个新的潜在表位簇。
