Mutation of the "a" determinant of HBsAg with discordant HBsAg diagnostic kits

Sera from 1003 in- and out-patients were investigated for hepatitis B surface antigen (HBsAg) mutation at Siriraj Hospital, Bangkok, Thailand. Individual samples were screened using two commercial HBsAg kits on automatic machine-based assays set up in parallel. The first kit was a sandwich ELISA kit that used monoclonal capture/monoclonal conjugate and color detection whereas the second was a sandwich MEIA, using monoclonal capture/polyclonal indicator and fluorochrome determination. Six specimens were found discordant by negative EIA and positive MEIA; two specimens of which were detectable of HBV DNA. Three out of four discordant results were confirmed by an anti-HBs neutralization assay. Based on direct sequencing, one HBsAg/anti-HBs sample with multiple mutations in the S gene was found. The mutation included the common glycine to arginine escape mutation at amino acid position 145 of the "a" determinant. The observation should alert the blood bank to the necessity of using screening kits capable of detecting HBV mutant carriers as well as providing verification for the phenomenon of vaccine-escape mutation in Thailand.     

A new hepatitis B virus vaccine escape mutation in a renal transplant recipient.

Surface antigen mutations of hepatitis B virus (HBV) may lead to immune escape and cause failure of immunization. In this report, the development of a chronic HBV infection in a vaccinated renal transplant recipient with pre-existing anti-HBs antibody is documented. The sequencing data showed that the HBV strain carried five amino acid substitutions in the major hydrophilic region of the S protein, one (sS143L) located at the "a" determinant. A commercial HBsAg assay failed to detect the mutant antigen.     

Hepatitis B surface antigen variant with multiple mutations in the a determinant in an agammaglobulinemic patient

A patient with agammaglobulinemia developed acute hepatitis that progressed to chronic liver disease with high levels of hepatitis B virus (HBV) DNA in the absence of detectable HBsAg. Sequencing of the a determinant region of HBsAg revealed multiple amino acid substitutions that, unusually, also included a substitution at position 122 that defines subtype specificity. All of these mutations had a profound effect on the antigenicity of this region, which led to the complete failure of variant detection by commercially available routine diagnostic assays or laboratory-based monoclonal antibody assays.     

Sensitivities of four new commercial hepatitis B virus surface antigen (HBsAg) assays in detection of HBsAg mutant forms

Mutations in hepatitis B virus surface antigen (HBsAg) involving amino acid substitution within the immunodominant "a" determinant may affect the performance of commercial HBsAg assays. The performances of four HBsAg assays that recently received Conformité Européene marking, Advia Centaur HBsAg (Bayer), Monolisa HBsAg Ultra (Bio-Rad), Liaison HBsAg (Dia Sorin), and Vidas HBsAg Ultra (bioMérieux), were compared with that of the routinely used HBsAg assay AxSYM HBsAg V2 (Abbott). Assays were evaluated for (i) analytical sensitivity performance with a national reference HBsAg panel (including 10 samples with calibrated HBsAg concentrations from 0.04 to 2.24 ng/ml) and (ii) the detection of HBsAg mutants by studying a panel of 35 HBsAg mutants (23 collected from patients and 12 recombinant mutants). The limits of detection of these assays were <0.15 ng/ml (from 0.089 to 0.121 ng/ml). The sensitivity performances for mutant virus detection varied, ranging from 37.1% to 91.4%. The lack of detection of these mutants by commercial assays was probably due to the epitope recognition of the anti-HBs assay reagents in the capture phase and in the conjugates. The prevalence and clinical impact of HBsAg mutants are under investigation. However, the manufacturers must be vigilant in the design of the assays in order to reduce the risk of missing a broad range of described S gene mutants.     

A novel hepatitis B virus mutant coexisting with wild type virus in a carrier with negative HBsAg yet positive HBeAg and anti-HBs

BackgroundOccult infection of hepatitis B virus (HBV) has important impacts on both public health and clinical medicine.ObjectivesTo characterize the sequences of HBV S region in a chronic carrier with occult HBV infection.Study designSerological markers for HBV were tested by commercial kits. Western blotting was performed to detect HBsAg. PCR was used to amplify HBV S region; the resultant products were sequenced directly and cloned and then sequenced.ResultsTests with commercial kits showed that the carrier was HBsAg negative yet HBeAg positive. HBsAg was positive in Western blotting analysis. Although anti-HBs titers were as high as 5356–11,578 mIU/ml, serum HBV DNA was positive, ranging from 370 to 491 copies/ml. Wild type and mutant HBV coexisted in circulation. The mutant virus had mutations in both preS2 and S genes: the preS2 ATG mutated to ATA, and the S gene had a 15-nucleotide repeat insertion in the a determinant. By Blast search in the GenBank, the mutant virus had not been identified before. Nevertheless, the carrier had no signs of liver dysfunction during follow-up period.ConclusionWe identified a novel mutant HBV coexisted with wild type virus in a carrier with negative HBsAg and positive HBeAg and high level of anti-HBs.     

A novel hepatitis B virus mutant coexisting with wild type virus in a carrier with negative HBsAg yet positive HBeAg and anti-HBs

BackgroundOccult infection of hepatitis B virus (HBV) has important impacts on both public health and clinical medicine.ObjectivesTo characterize the sequences of HBV S region in a chronic carrier with occult HBV infection.Study designSerological markers for HBV were tested by commercial kits. Western blotting was performed to detect HBsAg. PCR was used to amplify HBV S region; the resultant products were sequenced directly and cloned and then sequenced.ResultsTests with commercial kits showed that the carrier was HBsAg negative yet HBeAg positive. HBsAg was positive in Western blotting analysis. Although anti-HBs titers were as high as 5356–11,578 mIU/ml, serum HBV DNA was positive, ranging from 370 to 491 copies/ml. Wild type and mutant HBV coexisted in circulation. The mutant virus had mutations in both preS2 and S genes: the preS2 ATG mutated to ATA, and the S gene had a 15-nucleotide repeat insertion in the a determinant. By Blast search in the GenBank, the mutant virus had not been identified before. Nevertheless, the carrier had no signs of liver dysfunction during follow-up period.ConclusionWe identified a novel mutant HBV coexisted with wild type virus in a carrier with negative HBsAg and positive HBeAg and high level of anti-HBs.     

Analysis of the antigenic epitopes of hepatitis B surface antigen involved in the induction of a protective antibody response.

Vaccination with hepatitis B surface antigen (HBsAg) has shown that antibody directed against the common 'a' determinant of this antigen is protective against infection with hepatitis B virus (HBV). In this study the antigenic epitopes of the 'a' determinant have been analysed by competitive inhibition assays and by binding studies to synthetic peptides using a panel of monoclonal antibodies prepared against HBsAg, all of which are shown to recognise the common group determinant. One murine monoclonal antibody used in this study, RFHBs1, has been shown previously to block infectivity of HBV in susceptible chimpanzees ((1983) J. Med. Virol. 16, 89-95). This antibody bound to a cyclical synthetic peptide analogue of amino acids 124 to 137 of the major HBsAg polypeptide.     

Evaluation of 10 commercial diagnostic kits for in vitro expressed hepatitis B virus (HBV) surface antigens encoded by HBV of genotypes A to H

Genetic variability of the hepatitis B virus (HBV) constitutes one of the major challenges for diagnosis of HBV infection. It is plausible that amino acid substitutions in the "a" determinant of the HBV surface antigen (HBsAg) that affect antigenic sites, whether originating from genetic diversity or from mutations in the HBV strain itself, will affect the sensitivity of some diagnostic kits. In fact, recent studies have indicated that some diagnostic kits had false negative results with particular HBsAg mutants. There have been, however, few substantial studies evaluating sensitivities of diagnostic kits to the HBsAg encoded by different HBV genotypes. Our recent study found that 10 diagnostic kits available in Japan were able to detect HBsAg irrespective of whether it originated from HBV genotypes A, B or C, with the latter two genotypes being the dominant species in East Asia. In this study, we extended our previous efforts by assessing the ability of diagnostic kits to detect recombinant HBsAg derived from HBV genotypes A to H. Our results demonstrated that 9 out of 10 diagnostic kits evaluated were able to detect as low as 0.2 International Units (IU)/ml HBsAg, irrespective of HBV genotype. The genotypic differences in the HBV family thus appear to have little impact on the sensitivity of currently available HBsAg diagnostic kits.     

Naturally occurring MHR variants in Turkish patients infected with hepatitis B virus

Major B-cell epitopes are located at the major hydrophilic region (MHR) of hepatitis B virus (HBV) surface antigen (HBsAg). The genotypes, subtypes, and naturally occurring amino acid (aa) substitutions of MHR were analyzed in 81 Turkish adult patients (41 inactive HBsAg carriers and 40 patients with chronic hepatitis B) by direct sequencing of the S gene fragment. All the isolates were genotype D according to the phylogenetic analysis. The most common HBsAg subtype was ayw2, followed by ayw3 while one isolate specified ayw4 by encoding Leu127. MHR variants were detected in 22 of the 81 (27.2%) isolates. The prevalence was significantly higher in the chronic hepatitis B group (42.5%) compared to inactive HBsAg carriers (12.2%). Twenty-two samples had a total of 26 amino acid substitutions involving 14 positions. The majority of the patients had a single variation. Most of the amino acid substitutions were located at the HBs1 region of the MHR, while 9 of the 26 were in the classic "a" determinant (aa 124-147). When samples with "a" variants were evaluated by two different commercial HBsAg tests, only the isolate with Ser143Leu variation had a decreased reactivity in the assay using monoclonal antibodies for capture and detection. In conclusion, the findings of the study was in accordance with previous studies showing HBV genotype and subtype homogeneity (genotype D/ayw) in Turkey. Naturally occurring MHR and "a" determinant variants were common, especially among chronic hepatitis B patients. The influence of detected "a" variants on diagnostic assays was limited.     

Hepatitis B virus genotype E surface antigen detection with different immunoassays and diagnostic impact of mutations in the preS/S gene

The major neutralizing epitope, the “a” determinant of the hepatitis B virus (HBV) genotype E surface antigen (HBsAg) is most divergent from that of genotype A, which is used for preparing monoclonal antibodies used in commercially available HBV reagents. To evaluate the performance of the latest generation of HBsAg detection assays with respect to genotype E HBsAg. Three commercial assays were evaluated using sera from 200 Nigerian patients compared to the preS/S sequence of DNA positive samples. Out of 200 samples, 61 and 103 gave concordant positive and negative results between the three HBsAg assays. Of 36 samples with discordant results, 35 were confirmed negative by neutralisation. One of the three assays showed significantly high rate of false positives (29 of 35). DNA positive samples with no detectable HBsAg or reduced HBsAg detection signals (<75% of mean signal obtained with HBsAg positive samples) revealed several mutations (V14A, F46S, N48T, L49R, I49T, D51G, A53V, P54L, Q82P, F83C, L127P, A184V, T189I, S204N, V224A), mostly outside the a-determinant. Several of these mutations are found as wild type nucleotides normally in genotype A and only exceptionally in genotype E. All three assays showed comparable sensitivities for genotype E HBsAg detection (98.4–100%) but differed considerably in specificity (84–99%). Failure to detect HBsAg antigen and differences in signal intensity were mainly associated with mutations in the preS/S gene outside the “a” determinant.     

Infections by hepatitis B surface antigen gene mutants in Europe and North America

Hepatitis B virus (HBV) mutants have usually been studied in patients in Asia because of the wider use of HBV immunization there and the resultant emergence of viral mutants. Nevertheless, HBV surface antigen (S) gene mutants also are found in Europe and North America. In Europe and North America, HBV with mutations in the portion of the S gene coding the "a" determinant of the hepatitis B surface antigen (HBsAg) have been documented in small numbers of infants born to HBV-infected mothers following post-natal HBV vaccine and hepatitis B immune globulin (HBIG) prophylaxis and in many liver transplant recipients who develop HBV re-infection despite HBIG prophylaxis. In some cases, these mutations have included a glycine to arginine substitution at position 145 (G145R), which results in a conformational change and different reactivity to monoclonal antibody reagents than that of the wild-type virus. Mutations in the a determinant (but not G145R) also have been reported in European patients with chronic HBV infection who have not received HBV vaccine or HBIG. However, it appears that such mutations are only responsible for a small proportion of "occult" or "silent" HBV infections, which are characterized by the presence of HBV DNA in serum in the absence of detectable HBsAg. However, some of these mutant forms of HBV in cases of occult HBV may theoretically escape detection and could present a risk to blood safety.     

HBV G145R突变对S蛋白及“a”决定簇合成肽抗原性影响

人工合成G145R突变后HBsAg"a"决定簇多肽G145R-SP24,将G145R-SP24、重组G145R变异S蛋白及重组野生型HBsAg分组免疫BALB/c小鼠,制备相应抗血清。通过观察各免疫原与抗血清或抗G145R变异HBsAg McAb的免疫反应特征,分析并比较G145R突变后对S蛋白及"a"决定簇合成肽抗原性的影响。结果,几种免疫原均取得理想的免疫效果,ELISA证实各抗血清均有较好的特异性。G145R-SP24和G145R变异S蛋白免疫小鼠获得的抗血清效价较野生型HBsAg略低,且抗原性也发生了明显改变,G145R突变后"a"决定簇仍然具有较好的免疫原性;另外G145R-SP24与G145R变异S蛋白之间也显示出不同的抗原性,提示孤立的G145R变异HBsAg"a"决定簇与完整G145R S蛋白的"a"决定簇可能形成不同的空间构象。本研究为进一步探讨"a"决定簇突变后空间结构的变化规律与抗原性改变的特点奠定一定的基础。     

Hepatitis B virus markers in anti-HBc only positive individuals.

Isolated reactivity to hepatitis B virus (HBV) core antigen (anti-HBc) is observed relatively frequently in immunocompromised individuals, intravenous drug abusers (IVDA), and in the presence of HCV infection. The reason for the lack of HBsAg is not clear. The aim of the present study was to investigate which factors (genetic variability of S gene, low-level HBsAg, and immune complexes may be responsible for the failure of HBsAg detection with commercial HBsAg screening assays. Dilution series of two recombinant HBsAg escape mutants and dilutions of serum samples from chronic HBV carriers with multiple insertions in the a determinant and different HBsAg subtypes were tested with a highly sensitive assay that detects wild-type HBsAg (Elecsys HBsAg, Roche Diagnostics, Penzberg, Germany) and two assays that detect HBV wild-type and escape mutants (Murex HBsAg Version 3, Murex and Enzygnost HBsAg 5.0, Dade Behring, Marburg, Germany). Elecsys HBsAg showed in comparison to Murex HBsAg Version 3 and Enzygnost HBsAg 5.0 a reduced sensitivity for escape mutant detection. On the other hand, the best performance for HBsAg subtype detection was obtained with Elecsys HBsAg. In the second part of the study, a selected panel of isolated anti-HBc reactive (n = 104) serum samples (AxSYM Core) was submitted to testing by Elecsys HBsAg, Murex HBsAg Version 3, Enzygnost HBsAg 5.0, and HBsAg detection after immune complex dissociation (ICD) and anti-HBs determination with two different assays (AxSYM Ausab and Elecsys Anti-HBs). To assess the specificity of anti-HBc test results, all the samples were tested by a second anti-HBc assay (Elecsys Anti-HBc). Quantitative HBV DNA detection was undertaken with a commercially available HBV PCR assay (Amplicor HBV Monitor). HCV infection was present in 65.4% of anti-HBc only reactive individuals. Five AxSYM Core positive samples were negative by Elecsys Anti-HBc. Overall, 15 (14.4%) AxSYM Ausab negative samples gave positive results with Elecsys Anti-HBs (median value: 21 IU/ml). No low-level HBsAg carrier was detected among the isolated anti-HBc reactive individuals with Elecsys HBsAg. There was no evidence for the presence of immune complexes. Only one sample was repeatedly reactive by the Murex HBsAg, suggesting that the a mutant form of HBsAg was responsible for the isolated anti-HBc reactivity, however neutralisation assay was not interpretable and HBV DNA PCR was negative. Fifteen (14.4%) anti-HBc only positive individuals were HBV DNA carriers with concentrations ranging from 800 to more than >4,000,000 copies of viral DNA/ml. In conclusion, the most probable explanations for isolated anti-HBc reactivity in our study group are a possible interference of HBsAg synthesis by HCV infection (65.4%) and divergence of results of anti-HBs assays (14.4%). There is no evidence for the presence of low-level HBsAg carriers and immune complexes. HBsAg mutants cannot be excluded definitively by the test strategy used in the present evaluation.     

Improved Detection of Hepatitis B Virus Surface Antigen by a New Rapid Automated Assay

The performance of hepatitis B virus (HBV) surface antigen (HBsAg) screening assays is continuously improved in order to reduce the residual risk of transfusion-associated hepatitis B. In a multicenter study, a new automated rapid screening assay, Elecsys HBsAg (Roche Diagnostics), was compared to well-established tests (Auszyme Monoclonal [overnight incubation] version B and IMx HBsAg [Abbott]). Included in the evaluation were 23 seroconversion panels; sera from the acute and chronic phases of infection; dilution series of various HBsAg standards, HBV subtypes, and S gene mutants; and isolated anti-HBV core antigen-positive samples. To challenge the specificity of the new assay, sera from HBsAg-negative blood donors, pregnant women, and dialysis and hospitalized patients and potentially cross-reactive samples were investigated. Elecsys HBsAg showed a higher sensitivity for HBsAg subtypes ad, ay, adw2, adw4, ayw1, ayw2, ayw4, and adr detection in dilution series of different standards or sera than Auszyme Monoclonal version B and/or IMx HBsAg. Acute hepatitis B was detected in 11 to 16 of 23 seroconversion panels between 2 and 16 days earlier with Elecsys HBsAg than with the alternative assays. Elecsys HBsAg and Auszyme Monoclonal version B detected HBsAg surface mutants with equal sensitivity. The sensitivity and specificity of Elecsys HBsAg were 100%. Auszyme Monoclonal version B had a 99.9% specificity, and its sensitivity was 96.6%. IMx HBsAg showed a poorer sensitivity and specificity than the other assays. In conclusion, Elecsys HBsAg permits earlier detection of acute hepatitis B and different HBV subtypes than the alternative assays. By using highly sensitive HBsAg screening assays, low-level HBsAg carriers among isolated anti-HBV core antigen-positive individuals can be detected.     

Detection of HBsAg mutants

HBsAg screening is carried out routinely to detect hepatitis B virus (HBV) infection. The immunoassays used employ capture antibodies often having specificity for epitopes present on the antigenic (a) determinant of the HBsAg. Loss of detection may occur due to mutations within and/or outside of the a determinant that affect conformational epitope recognition or HBsAg secretion or expression. Most of the mutations associated with immune escape occur within the second loop of the a determinant. In order to detect these HBsAg mutants, antibodies to subdominant regions within the a determinant or outside of the HBsAg may be required, and this has been the focus of many recent studies. Any changes to immunoassay formulations should also address the possible effect of HBV genotypic polymorphisms on assay specificity and sensitivity. HBsAg mutants may also be identified through nucleic acid detection of HBV in serum. Various molecular analysis methods have been developed to provide specific and sensitive detection of HBsAg mutants, including sequencing, limiting dilution cloning PCR (LDC-PCR), gap ligase chain reaction (gLCR), and real time PCR. Sequencing the HBsAg coding region provides specific information on the nucleotide sequence; however, it is relatively insensitive for the detection of minority quasispecies. Other nucleic acid methods offer greater sensitivity for the detection of point mutations. To improve immunoassays, further research will be required to increase detection sensitivity and specificity. Ultimately, a better understanding of the structure of antibody-bound HBsAg will help identify the immunological targets required for the accurate detection of HBsAg in blood.     

Overlapping gene mutations of hepatitis B virus in a chronic hepatitis B patient with hepatitis B surface antigen loss during lamivudine therapy

Disappearance of hepatitis B surface antigens (HBsAg) in chronic hepatitis B usually indicates clearance of hepatitis B virus (HBV) infection. However, false HBsAg negativity with mutations in pre-S2 and 'a' determinant has been reported. It is also known that YMDD mutations decrease the production of HBV and escape detection of serum HBsAg. Here, we report overlapping gene mutations in a patient with HBsAg loss during the lamivudine therapy. After 36 months of lamivudine therapy in a 44-yrold Korean chronic hepatitis B patient, serum HBsAg turned negative while HBV DNA remained positive by a DNA probe method. Nucleotide sequence of serum HBV DNA was compared with the HBV genotype C subtype adr registered in NCBI AF 286594. Deletion of nucleotides 23 to 55 (amino acids 12 to 22) was identified in the pre-S2 region. Sequencing of the 'a' determinant revealed amino acid substitutions as I126S, T131N, M133T, and S136Y. Methionine of rtM204 in the P gene was substituted for isoleucine indicating YIDD mutation (rtM204I). We identified a HBV mutant composed of pre-S2 deletions and 'a' determinant substitutions with YMDD mutation. Our result suggests that false HBsAg negativity can be induced by combination of overlapping gene mutations during the lamivudine therapy.     

乙肝疫苗免疫失败儿童病毒S基因"a"决定簇变异研究

目的 探讨江苏常州地区乙型肝炎疫苗免疫失败儿童病毒S基因“a”决定簇的变异情况。方法 对15例乙肝疫苗接种后血清表面抗原(HBsAg)阳性的儿童,采用聚合酶链反应方法(PCR)扩增其血清中HBV DNA S基因区。并对PCR产物直接标记测序。结果 15例HBsAg阳性儿童有14例血清HBV DNA阳性,其中有4例出现了S基因“a”决定簇的变异,变异率为28．6％,第126位的异亮氨酸（Ile)被苏氨酸(Thr)替代1例,第134位苯丙氨酸(Phe)被异亮氨酸替代1例。第145位甘氨酸(Gly)被丙氨酸(Pha)替代2例。结论乙型肝炎疫苗免疫失败儿童中存在s基因“a”抗原决定簇变异,江苏常州地区存在HBVS基因“a”决定簇变异的新类型。     

Genetic variability of the S gene of hepatitis B virus: clinical and diagnostic impact.

The genetic variability of hepatitis B virus (HBV) represents a challenge for the sensitivity of immunologic and molecular based assays. Based on sequence divergence in the entire genome of >8%, HBV genomes have been classified into eight groups designated A to H. The genotypes of HBV have distinct geographical distributions. Although preliminary clinical studies seem to indicate that there is an association between HBV genotype and natural history of infection and response to antiviral therapy, further evaluations on larger collectives of patients are necessary to give a clearer picture of the subject. The analytical sensitivity of HBsAg and anti-HBs assays may be dependent on HBV genotype or subtype. The influence of genotypic variability on the sensitivity of nucleic acid amplification tests (NAT) has so far been poorly investigated. Preliminary results show that new real-time NAT detect genotypes A to G with an equal sensitivity. Different mechanisms intervening at the translational or post-translational level, including conformational changes, hydrophobic changes, insertion of basic residues and reduced synthesis or secretion of HBsAg may account solely or in conjunction for escape mutations to the immune response and to detection in HBsAg immunassays. The clinical significance of S-gene mutants, needs in analogy to that of HBV genotypes, to be further investigated. HBV mutants are stable over time and can be transmitted horizontally or vertically. The sensitivity of HBsAg assays for mutant detection is continuously improved. Immunoassays based on polyclonal capture antibody show the highest sensitivity for the recognition of recombinant mutants or serum samples harboring mutant forms of HBsAg. However, they do not guarantee full sensitivity. Detection of HBsAg needs to be improved by the introduction of new HBsAg assays able to recognize so far described S-gene mutants and with a lower detection threshold than current immunoassays in order to detect smallest amounts of HBsAg in low level carriers. There is also a need for more complete epidemiological data on the prevalence of HBsAg mutants and strategies for the (differential) screening of mutants need to be developed and evaluated.     

Restoration of replication phenotype of lamivudine-resistant hepatitis B virus mutants by compensatory changes in the "fingers" subdomain of the viral polymerase selected as a consequence of mutations in the overlapping S gene

The introduction of lamivudine (LMV) for the treatment of chronic hepatitis B infection has been an important advance in the management of this disease. However, the long-term efficacy of LMV may become limited by the emergence of antiviral-resistant hepatitis B virus (HBV) mutants. The two most common LMV-resistant mutants produce changes in the viral polymerase protein (rt) of rtM204I and rtL180M/M204V (previously rtM550I and rtL526M/M550V). A number of studies have demonstrated that these HBV mutants appear to be replication impaired, both in vitro and in vivo. The detection and selection of compensatory mutations in the polymerase protein that restore the replication phenotype of these HBV mutants have been poorly described to date. The effects of mutations in the fingers subdomain of the viral polymerase protein arising as a consequence of vaccine and hepatitis B immune globulin (HBIg) selected changes in the overlapping envelope gene (S), and a determinant of the hepatitis Bs antigen (HBsAg) were analyzed in vitro. The LMV-resistant HBV mutants rtM204I and rtL180M/M204V produced substantially weaker HBV DNA replicative intermediate signals by Southern blot analysis and less total intracellular HBV DNA by real-time PCR compared to wild-type virus. The viral polymerase protein of these mutants produced little detectable radiolabeled HBV DNA in an endogenous polymerase assay. In contrast, the HBV a determinant HBIg/vaccine escape mutants sP120T, sT123N, sG145R, and sD144E/G145R (that produce rtT128N, Q130P, rtW153Q, and rtG153E respectively) yielded as much virus as wild-type HBV while the sM133L (rtY141S) mutant was replication impaired. Two of these mutants, rtT128N and rtW153Q, when introduced into a replication-competent HBV vector containing the rtL180M/M204V polymerase mutation restored the replication phenotype of this LMV-resistant mutant. These viruses produced levels of intracellular HBV DNA as determined by Southern blot and real-time PCR that were comparable to those of wild-type HBV, indicating that the changes in the fingers subdomain were able to compensate for the reduced replication of the LMV-resistant mutations. Since these viruses carry mutations in the a determinant of HBsAg that may potentially decrease the ability of anti-HBs antibody to neutralize these viruses, these HBV mutants also have the potential to behave as vaccine escape mutants.     

14株抗乙型肝炎表面抗原单克隆抗体与变异表面抗原的反应模式及应用

目的制备抗乙型肝炎表面抗原(hepatitis B surface antigen,HBsAg)的单克隆抗体,检测单克隆抗体与15种变异HBsAg的反应模式。用筛选出的单抗建立快速检测变异HBsAg的ELISA实验方法,并做初步评价。方法用中国乙型肝炎病毒感染者血清中分离的HBsAg免疫BALB/c小鼠,通过杂交瘤细胞融合技术制备抗-HBs单克隆抗体。检测不同单克隆抗体与野生及变异HBsAg的反应性。筛选出两种可以较好识别变异HBsAg的单克隆抗体McAb2和McAb3,建立两种抗体ELISA检测HBsAg的方法。结果制备了14株抗-HBs单抗。经过初筛,有4种可以较好识别包括G145R在内的大多数变异HBsAg。优化了McAb2和McAb3检测HBsAg的条件,检测HBsAg的灵敏度较好,检测变异HBsAg的能力优于2种现行国产HBsAg检测试剂盒。结论用本实验制备的单抗可以很好地识别包括G145R在内的大多数变异HBsAg。