Department of Transfusion Medicine, School of Laboratory Medicine and Biotechnology, Southern Medical University, Guangzhou, China.
Guangzhou Blood Center, Guangzhou, China.
J Viral Hepat. 2020 Sep;27(9):915-921. doi: 10.1111/jvh.13309. Epub 2020 May 11.
The causative factors of occult hepatitis B infection are complicated and not yet been fully elucidated. Mutations in hepatitis B virus (HBV) S gene are one of the factors may contributing to occult infection. In this study, 89 blood donors with genotype B occult HBV infection were investigated. Fifty-seven hepatitis B surface antigen (HBsAg)-positive/HBV DNA-positive blood donors served as control group for comparison. Occult HBV-related mutations with a high incidence (P < .05) in the S gene were identified. To further verify these occult infection-related mutations, a conservative full-gene expression vector of HBV B genotype (pHBV1.3B) was constructed. Then, the mutant plasmids on the basis of pHBV1.3B were constructed and transfected into HepG2 cells. Extracellular as well as intracellular HBsAg was analysed by electrochemical luminescence and cellular immunohistochemistry. Ten occult infection-related mutations (E2G, Q101R, K122R, M133T, D144E, G145R, V168A, S174N, L175S and I226S) were significantly more frequent in the occult infection group (P < .05). Five of the ten mutations (E2G, D144E, G145R, V168A and S174N) strongly decreased extracellular HBsAg level (P < .05) in the transfection system. Notably, the E2G mutation had the most significant impact on the ratio of extracellular HBsAg (3.8% vs pHBV1.3B) and intracellular HBsAg (239.3% vs pHBV1.3B) (P < .05), and the fluorescence density of E2G mutant HBsAg was significantly higher than that of pHBV1.3B (P < .0001). Hence, ten mutations were associated with genotype B occult HBV infection; E2G and V168A were novel mutations which we confirmed significantly affect HBsAg detection. E2G might cause HBsAg secretion impairment that results in intracellular accumulation and a decrease in HBsAg secretion.
隐匿性乙型肝炎感染的致病因素复杂,尚未完全阐明。乙型肝炎病毒 (HBV) S 基因的突变是导致隐匿性感染的因素之一。本研究对 89 例基因型 B 隐匿性 HBV 感染者进行了研究。57 例乙型肝炎表面抗原 (HBsAg) 阳性/ HBV DNA 阳性献血者作为对照组进行比较。在 S 基因中发现了一些发生率较高(P <.05)的隐匿性 HBV 相关突变。为了进一步验证这些隐匿性感染相关突变,构建了乙型肝炎 B 基因型的全长基因表达载体 (pHBV1.3B)。然后,基于 pHBV1.3B 构建了突变质粒,并转染 HepG2 细胞。通过电化学发光和细胞免疫组化分析细胞外和细胞内 HBsAg。在隐匿性感染组中,10 种隐匿性感染相关突变 (E2G、Q101R、K122R、M133T、D144E、G145R、V168A、S174N、L175S 和 I226S) 的频率明显更高(P <.05)。在转染系统中,这 10 种突变中的 5 种(E2G、D144E、G145R、V168A 和 S174N)明显降低了细胞外 HBsAg 水平(P <.05)。值得注意的是,E2G 突变对细胞外 HBsAg 的比值(3.8%比 pHBV1.3B)和细胞内 HBsAg 的比值(239.3%比 pHBV1.3B)影响最大(P <.05),E2G 突变体 HBsAg 的荧光密度明显高于 pHBV1.3B(P <.0001)。因此,10 种突变与基因型 B 隐匿性 HBV 感染有关;E2G 和 V168A 是我们证实的新突变,它们显著影响 HBsAg 的检测。E2G 可能导致 HBsAg 分泌受损,导致细胞内积累和 HBsAg 分泌减少。
