Department of Pathobiology, Key Laboratory of Medical Molecular Virology, School of Basic Medical Sciences, Fudan University, Shanghai, China.
State Key Laboratory of Molecular Vaccinology and Molecular Diagnostics, School of Public Health, Xiamen Universitygrid.12955.3a, Xiamen, China.
J Virol. 2022 Mar 9;96(5):e0172321. doi: 10.1128/JVI.01723-21. Epub 2022 Jan 12.
Hepatitis B virus (HBV) large (L) envelope protein is translated from 2.4-kb RNA. It contains preS1, preS2, and S domains and is detected in Western blotting as p39 and gp42. The 3.5-kb pregenomic RNA produces core and polymerase (P) proteins. We generated L-minus mutants of a genotype A clone and a genotype D clone from 1.1-mer or 1.3-mer construct, with the former overproducing pregenomic RNA. Surprisingly, mutating a preS1 ATG codon(s) or introducing a nonsense mutation soon afterwards switched secreted p39/gp42 to a p41/p44 doublet, with its amount further increased by a nonsense mutation in the core gene. A further-downstream preS1 nonsense mutation prevented p41/p44 production. Tunicamycin treatment confirmed p44 as the glycosylated form of p41. In this regard, splicing of 3.5-kb RNA to generate a junction at nucleotides (nt) 2447 to 2902 for genotype D enables translation of p43, with the N-terminal 47 residues of P protein fused to the C-terminal 371 residues of L protein. Indeed p41/p44 were detectable by an antibody against the N terminus of P protein and eliminated by a nonsense mutation at the 5' P gene or a point mutation to prevent that splicing. Therefore, lost L (and core) protein expression from the 1.1-mer or 1.3-mer construct markedly increased p41/p44 (p43), the P-L fusion protein. Cotransfection with an expression construct for L/M proteins reversed high extracellular p41/p44 associated with L-minus mutants, suggesting that L protein retains p43 in wild-type HBV to promote its intracellular degradation. Considering that p43 lacks N-terminal preS1 sequence critical for receptor binding, its physiological significance during natural infection and therapeutic potential warrant further investigation. The large (L) envelope protein of hepatitis B virus (HBV) is translated from 2.4-kb RNA and detected in Western blotting as p39 and gp42. Polymerase (P) protein is expressed at a low level from 3.5-kb RNA. The major spliced form of 3.5-kb RNA will produce a fusion protein between the first 47 residues of P protein and a short irrelevant sequence, although also at a low level. Another spliced form has the same P protein sequence fused to L protein missing its first 18 residues. We found that some point mutations to eliminate L and core protein expression from overlength HBV DNA constructs converted p39/gp42 to p41/gp44, which turned out to be the P-L fusion protein. Thus, the P-L fusion protein can be expressed at extremely high level when L protein expression is prevented. The underlying mechanism and functional significance of this variant form of L protein warrant further investigation.
乙型肝炎病毒 (HBV) 的大 (L) 包膜蛋白由 2.4-kb RNA 翻译而来。它包含前 S1、前 S2 和 S 结构域,在 Western blot 中被检测为 p39 和 gp42。3.5-kb 前基因组 RNA 产生核心和聚合酶 (P) 蛋白。我们从 1.1-mer 或 1.3-mer 构建体中生成了 A 型和 D 型克隆的 L-缺失突变体,前者过度产生前基因组 RNA。令人惊讶的是,突变前 S1 ATG 密码子(或随后引入无义突变)将分泌的 p39/gp42 转换为 p41/p44 二聚体,核心基因中的无义突变进一步增加了其数量。进一步下游的前 S1 无义突变阻止了 p41/p44 的产生。衣霉素处理证实 p44 是 p41 的糖基化形式。在这方面,3.5-kb RNA 的剪接生成核苷酸 (nt) 2447 至 2902 处的接头,使 D 型的 p43 得以翻译,P 蛋白的 N 端前 47 个残基与 L 蛋白的 C 端 371 个残基融合。事实上,针对 P 蛋白 N 端的抗体可检测到 p41/p44,而 5' P 基因中的无义突变或防止该剪接的点突变可消除 p41/p44。因此,1.1-mer 或 1.3-mer 构建体中 L(和核心)蛋白表达的丢失显著增加了 p41/p44(p43),即 P-L 融合蛋白。与 L-缺失突变体共转染表达 L/M 蛋白的构建体可逆转与 L-缺失突变体相关的高细胞外 p41/p44,表明 L 蛋白在野生型 HBV 中保留 p43 以促进其细胞内降解。考虑到 p43 缺乏受体结合所必需的 N 端前 S1 序列,其在天然感染期间的生理意义和治疗潜力值得进一步研究。乙型肝炎病毒 (HBV) 的大 (L) 包膜蛋白由 2.4-kb RNA 翻译而来,并在 Western blot 中检测为 p39 和 gp42。聚合酶 (P) 蛋白由 3.5-kb RNA 以低水平表达。3.5-kb RNA 的主要剪接形式将产生 P 蛋白的前 47 个残基与一个短的无关序列之间的融合蛋白,尽管其水平也很低。另一种剪接形式具有相同的 P 蛋白序列与缺失其前 18 个残基的 L 蛋白融合。我们发现,一些消除过长 HBV DNA 构建体中 L 和核心蛋白表达的点突变将 p39/gp42 转换为 p41/gp44,这实际上是 P-L 融合蛋白。因此,当阻止 L 蛋白表达时,P-L 融合蛋白可以以极高的水平表达。这种 L 蛋白变异形式的潜在机制和功能意义值得进一步研究。
