The l2 minor capsid protein of human papillomavirus type 16 interacts with a network of nuclear import receptors

The L2 minor capsid proteins enter the nucleus twice during viral infection: in the initial phase after virion disassembly and in the productive phase when, together with the L1 major capsid proteins, they assemble the replicated viral DNA into virions. In this study we investigated the interactions between the L2 protein of high-risk human papillomavirus type 16 (HPV16) and nuclear import receptors. We discovered that HPV16 L2 interacts directly with both Kapbeta(2) and Kapbeta(3). Moreover, binding of Ran-GTP to either Kapbeta(2) or Kapbeta(3) inhibits its interaction with L2, suggesting that the Kapbeta/L2 complex is import competent. In addition, we found that L2 forms a complex with the Kapalpha(2)beta(1) heterodimer via interaction with the Kapalpha(2) adapter. In agreement with the binding data, nuclear import of L2 in digitonin-permeabilized cells could be mediated by either Kapalpha(2)beta(1) heterodimers, Kapbeta(2), or Kapbeta(3). Mapping studies revealed that HPV16 L2 contains two nuclear localization signals (NLSs), in the N terminus (nNLS) and C terminus (cNLS), that could mediate its nuclear import. Together the data suggest that HPV16 L2 interacts via its NLSs with a network of karyopherins and can enter the nucleus via several import pathways mediated by Kapalpha(2)beta(1) heterodimers, Kapbeta(2), and Kapbeta(3).     

HPV16L1核浆运输的动力学过程

利用增强型绿色荧光蛋白(Enhancegreenflurenscentprotein,EGFP)标记不同的截短型HPV16L1蛋白(Humanpapillomavirustype16L1protein,HPV16L1),分析HPV16L1蛋白核定位信号(Nucleuslocationsignal,NLS)的作用。构建重组pFB-EGFP、pFB-EGFP-HPV16L1、pFB-EGFP-HPV16L1△NLS和pFB-EGFP-NLSHPV16L1p转移载体;在DH10Bac宿主菌内经Tn7转座子介导的同源重组后转染Sf-9细胞,获得重组Ac-EGFP、Ac-EGFP-HPV16L1、Ac-EGFP-HPV16L1△NLS和Ac-EGFP-NLSHPV16L1杆状病毒,感染Sf-9昆虫细胞表达相应截短型HPV16L1融合蛋白;利用荧光显微镜和激光共聚焦显微镜观察不同融合蛋白的荧光特性和核浆转运动力学过程。结果发现Ac-EGFP杆状病毒感染的Sf-9细胞内明亮的绿色荧光均匀分布;重组Ac-EGFP-HPV16L1和Ac-EGFP-NLSHPV16L1杆状病毒感染的Sf-9细胞,明亮的绿色荧光主要位于细胞核内;重组Ac-EGFP-HPV16L1△NLS杆状病毒感染的Sf-9细胞,绿色荧光局限于细胞浆内,细胞核内无绿色荧光。说明HPV16L1蛋白羧基端的23个氨基酸(GKRKATPTTSSTSTTAKRKKRKL)具有完全核定位作用,能引导HPV16L1蛋白和EGFP突破核膜屏障进入Sf-9细胞核内。     

人乳头瘤病毒（HPV）58型中和单克隆抗体的制备及初步应用

人乳头瘤病毒（human papillomavirus,HPV）58型是宫颈癌的主要诱因之一. HPV58在亚洲地区宫颈癌组织中的检出率仅次于HPV16/18. HPV58中和单克隆抗体可用于 HPV病毒样颗粒（virus-like particle,VLP）疫苗的研究,并为病毒感染入侵机制的 研究提供实验材料. 本研究采用HPV58 L1 VLP免疫BALB/c小鼠,取其脾细胞进行杂交瘤 细胞的制备,通过VLP-ELISA和假病毒中和实验筛选杂交瘤细胞株;经rProtein A纯化 阳性杂交瘤细胞培养上清获得单抗;采用ELISA测定型别特异性中和单抗的亲和力,采用相加实验及变性VLP-ELISA分析单抗识别表位的性质;选取高亲和力单抗建立定量分 析HPV58 L1 VLP的ELISA方法. 获得了2株HPV58特异性中和单抗XM-22和XM-23,亲和常数分别为2.7×107 mol-1·L和1.9×106 mol-1·L,二者识别表位可能不同. 同时获得2株具有交叉中和活性的单抗XM-21和XM-24,除可较高水平中和HPV58外,还可分别交叉 中和亲缘关系较远的HPV18和HPV6. 以XM-22建立的ELISA方法定量分析HPV58 L1 VLP的检测范围为0.05 μg/mL~0.40 μg/mL. 本研究建立的ELISA方法可用于HPV58 L1 VLP疫苗生产的质量控制研究,获得的4株具有不同特点的中和单抗可用于HPV58感染入侵机制 的研究.     

The l2 minor capsid protein of low-risk human papillomavirus type 11 interacts with host nuclear import receptors and viral DNA

Analysis of the interactions of low-risk human papillomavirus type 11 (HPV11) L2 with karyopherin beta (Kap beta) nuclear import receptors revealed that L2 interacted with Kap beta 1, Kap beta 2, and Kap beta 3 and formed a complex with the Kap alpha 2 beta 1 heterodimer. HPV11 L2 contains two nuclear localization signals (NLSs)-in the N terminus and the C terminus-that could mediate its nuclear import via a classical pathway. Each NLS was functional in vivo, and deletion of both of them abolished L2 nuclear localization. Both NLSs interacted with the viral DNA. Thus, HPV11 L2 can interact with several karyopherins and the viral DNA and may enter the nucleus via multiple pathways.     

粗提和纯化的HPV16L1重组蛋白为抗原的ELISA比较

为评价真核及原核细胞表达的HPV16L1粗提蛋白代替纯化的16L1蛋白作为ELISA检测抗原的可行性。实验分别用大肠埃希菌表达的HPV16L1纯化蛋白,表达16L1的大肠埃希菌破碎物及表达16L1的昆虫细胞破碎物作为抗原。在ELISA试验中与抗HPV16L1的单克隆抗体进行反应。结果证实3种包被抗原可以得出非常相近的OD值变化趋势。表明用表达16L1的大肠埃希菌破碎物和表达16L1的昆虫细胞破碎物可以代替纯化的HPV16L1蛋白作为抗原进行ELISA试验。     

Immunocytochemical detection of HPV high-risk type L1 capsid proteins in LSIL and HSIL as compared with detection of HPV L1 DNA

OBJECTIVE: To investigate the prevalence of HPV L1 capsid proteins in HPV-infected HSIL and LSIL. STUDY DESIGN: Cervical smears from 74 women with cytologically and histologically confirmed LSIL (n = 32) and HSIL (n = 42) were collected prospectively to detect HPV high-risk (hr) types 16, 18, 33, 35, 39, 45, 56 and 58 L1-DNA by standardized L1-consensus primer PCR (MY 09/11) and L1 capsid proteins by immunocytochemistry using monoclonal antibodies T31 (HPV16) and T16 (HPV hr) in a standardized protocol. RESULTS: In HSIL and LSIL, L1 DNA was found for HPV hr in 93% and 59% and for HPV16 in 69% and 37% of the specimens, respectively. HPV L1 capsid proteins were detected in HSIL and LSIL for HPV hr in 33% and 44% and for HPV16 in 29% and 31% of the specimens, respectively. Expression of L1 capsid proteins was significantly reduced, by 59.6% for HPV hr L1 DNA-positive HSIL (P < .01) and by 40.4% for HPV 16 L1 DNA-positive HSIL (P < .01). In HPV 16 DNA-positive and HPV hr DNA-positive LSIL, no significant reduction of corresponding L1 capsid protein expression could be demonstrated. CONCLUSION: These data suggest a disturbed viral cellular interaction in HPV 16 and HPV hr-infected HSIL, with loss of viral L1 capsid antigen. In this context there is a possible role of T31 and T16 as prognostic markers to predict the prognosis of CIN.     

NLSdb: database of nuclear localization signals

NLSdb is a database of nuclear localization signals (NLSs) and of nuclear proteins. NLSs are short stretches of residues mediating transport of nuclear proteins into the nucleus. The database contains 114 experimentally determined NLSs that were obtained through an extensive literature search. Using 'in silico mutagenesis' this set was extended to 308 experimental and potential NLSs. This final set matched over 43% of all known nuclear proteins and matches no currently known non-nuclear protein. NLSdb contains over 6000 predicted nuclear proteins and their targeting signals from the PDB and SWISS-PROT/TrEMBL databases. The database also contains over 12 500 predicted nuclear proteins from six entirely sequenced eukaryotic proteomes (Homo sapiens, Mus musculus, Drosophila melanogaster, Caenorhabditis elegans, Arabidopsis thaliana and Saccharomyces cerevisiae). NLS motifs often co-localize with DNA-binding regions. This observation was used to also annotate over 1500 DNA-binding proteins. NLSdb can be accessed via the web site: http://cubic.bioc.columbia.edu/db/NLSdb/.     

Switching of cardiac troponin I between nuclear and cytoplasmic localization during muscle differentiation

The nuclear accumulation of proteins may depend on the presence of short targeting sequences, which are known as nuclear localization signals (NLSs). Here, we found that NLSs are predicted in some cytosolic proteins and examined the hypothesis that these NLSs may be functional under certain conditions. As a model, human cardiac troponin I (hcTnI) was used. After expression in cultured non-muscle or undifferentiated muscle cells, hcTnI accumulated inside nuclei. Several NLSs were predicted and confirmed by site-directed mutagenesis in hcTnI. Nuclear import occurred via the classical karyopherin-α/β nuclear import pathway. However, hcTnI expressed in cultured myoblasts redistributed from the nucleus to the cytoplasm, where it was integrated into forming myofibrils after the induction of muscle differentiation. It appears that the dynamic retention of proteins inside cytoplasmic structures can lead to switching between nuclear and cytoplasmic localization.     

杨树基因组AMT转运蛋白的生物信息学特性

本研究中,通过隐马尔科夫模型(HMM)和杨树蛋白质库搜索,共找到17个杨树铵转运体蛋白(PtAMTs).利用生物信息学方法,我们对杨树家族17条AMT蛋白序列的系统发生和AMT基因组定位进行分析,然后对其氨基酸组成成分、理化性质以及二级结构进行预测和分析,同时还分析了杨树与拟南芥、水稻、番茄、百脉根和欧洲油菜的AMT基因家族之间的联系.二级结构预测结果发现不同成员间氨基酸数目、氨基酸序列间的疏水性存在一定的差异;α-螺旋和无规则卷曲为主要二级结构组成部分.同源性比对分析表明,PtAMT基因家族主要分为2个亚家族,AMT1 (11个成员)和AMT2 (6个成员),基因结果分析表明AMT2亚家族成员不含内含子.杨树AMT蛋白的亚细胞定位分析表明PtAMT主要定位于膜结构上.电子表达图谱分析结果表明:只有XP_002309151和 XP_002334025基因有对应的EST序列,并有相应的电子表达谱,并主要在花蕾表达.     

Influence of Human Papillomavirus E7 Oncoprotein on Maturation and Function of Plasmacytoid Dendritic Cells In Vitro

The major difficulties of human papillomavirus(HPV) treatment are its persistence and recurrence. The HPV E7 oncoprotein-loaded dendritic cells have been evaluated as cellular vaccine in previous reports. Plasmacytoid dendritic cells(pDCs) play an essential role of connecting the innate immune response and adaptive immune response in the immune system. But they function in HPV E7 loading is unclear. To investigate whether loading of the HPV type 6b, 11, and 16 E7 proteins affects the activity of pDCs, human peripheral blood-separated pDCs and mouse bone marrow-derived pDCs were pulsed with the HPV E7 proteins. The expression levels of CD40, CD80, CD86, and MHC II were significantly upregulated in pDCs upon HPV 6b/11 E7 protein pulse. The secretion and gene expression of type I IFN and IL-6 were both upregulated by HPV 6b/11 E7 proteins, more significant than HPV 16 E7 protein. The expression of essential factors of TLR signaling pathway and JNK/p38 MAP kinase signaling pathway were all increased in HPV 6b/11 E7 proteins pulsed pDCs. Our results suggest that HPV E7 proteins could promote the differentiation and maturation of pDCs and activate the TLR and MAPK pathway to induce host innate immune response. It might be conducive to explore novel immunotherapy targeting HPV infection with HPV E7 loaded pDC.     

Comparison of MY09/11 consensus PCR and type-specific PCRs in the detection of oncogenic HPV types

The causal relationship between persistent infection with high-risk HPV and cervical cancer has resulted in the development of HPV DNA detection systems. The widely used MY09/11 consensus PCR targets a 450bp conserved sequence in the HPV L1 gene, and can therefore amplify a broad spectrum of HPV types. However, limitations of these consensus primers are evident, particularly in regard to the variability in detection sensitivity among different HPV types. This study compared MY09/11 PCR with type-specific PCRs in the detection of oncogenic HPV types. The study population comprised 15, 774 patients. Consensus PCR failed to detect 522 (10.9%) HPV infections indicated by type-specific PCRs. A significant correlation between failure of consensus PCR and HPV type was found. HPV types 51, 68 and 45 were missed most frequently. The clinical relevance of the HPV infections missed by MY09/11 PCR was reflected in the fraction of cases with cytological abnormalities and in follow-up, showing 104 (25.4%) CIN2+ cases. The MY09/11 false negativity could be the result of poor sensitivity, mismatch of MY09/11 primers or disruption of L1 target by HPV integration or DNA degradation. Furthermore, MY09/11 PCR lacked specificity for oncogenic HPVs. Diagnostic accuracy of the PCR systems, in terms of sensitivity (MY09/11 PCR: 87.9%; type-specific PCRs: 98.3%) and specificity (MY09/11 PCR: 38.7%; type-specific PCRs: 76.14%), and predictive values for histologically confirmed CIN2+, suggest that type-specific PCRs could be used in a clinical setting as a reliable screening tool.     

Expression of human papillomavirus type 16 L1 protein in transgenic tobacco plants

To develop a plant expression system for the production of the human papillomavirus type 16 (HPV16) vaccine, we investigated whether the HPV16 L1 protein can be expressed in tobacco plants and whether it can be used as the cheapest form of edible vaccine. The HPV16 L1 coding sequence was amplified by PCR using specific primers from the plasmid pGEM-T-HPV16 containing the template sequence, and subcloned into the intermediate vector pUCmT and binary vector pBI121 consecutively to obtain the plant expression plasmid pBI-L1. The T-DNA regions of the pBI-L1 binary vector contained the constitutive Cauliflower mosaic virus (CaMV) 35S promoter and the neomycin phosphotransferase npt Ⅱ gene, which allowed the selection of transformed plants using kanamycin. The tobacco plants were transformed by cocultivating them, using the leaf disc method, with Agrobacterium tumefaciens LBA4404, which harbored the plant expression plasmid. The regenerated transgenic tobacco plants were selected using kanamycin, and confirmed by PCR. The results of the Southern blot assay also showed that the HPV16 L1 gene was integrated stably into the genome of the transformed tobacco plants. The Western blot analysis showed that the transformed tobacco leaves could express the HPV 16 L1 protein. Furthermore, it was demonstrated by ELISA assay that the expressed protein accounted for 0.034%-0.076% of the total soluble leaf protein, was able to form 55nm virus-like particles compatible with HPV virus-like particle (VLP), and induced mouse erythrocyte hemagglutination in vitro. The present results indicate that the HPV 16 L1 protein can be expressed in transgenic tobacco plants and the expressed protein possesses the natural features of the HPV16 L1 protein, implying that the HPV16 L1 transgenic plants can be potentially used as an edible vaccine.     

Polyglutamine aggregation behavior in vitro supports a recruitment mechanism of cytotoxicity

The L1 major capsid proteins of human papillomavirus (HPV) types 11 and 16 were purified and analyzed for structural integrity and in vitro self-assembly. Proteins were expressed in Escherichia coli as glutathione-S-transferase-L1 (GST-L1) fusions and purified to near homogeneity as pentamers (equivalent to viral capsomeres), after thrombin cleavage from the GST moiety and removal of tightly associated GroEL protein. Sequences at the amino and carboxy termini contributing to formation of L1 pentamers and to in vitro capsid assembly were identified by deletion analysis. For both HPV11 and HPV16 L1, up to at least ten residues could be deleted from the amino terminus (Delta N10) and 30 residues from the carboxy terminus (Delta C30) without affecting pentamer formation. The HPV16 pentamers assembled into relatively regular, 72-pentamer shells ("virus-like particles" or VLPs) at low pH, with the exception of HPV16 L1 Delta N10, which assembled into a 12-pentamer, T=1 capsid (small VLP) under all conditions tested. The production of large quantities of assembly-competent L1, using the expression and purification protocol described here, has been useful for crystallographic analysis, and will be valuable for studies of virus-receptor interactions and potentially for vaccine design.     

核定位信号及其分析策略

真核细胞核膜上的核孔复合体 (nuclear pore complex, NPC) 是细胞核内外进行物质交换的主要通道, 分子量较小的化合物可自由通过NPC或采取被动扩散的方式进入细胞核, 而分子量为50 kD以上的蛋白质则只能通过主动转运进入细胞核. 以这种方式进入细胞核的 蛋白质必须在其氨基酸序列上拥有特殊的核定位信号(nuclear localization signal, NLS)以被相应的核转运蛋白(karyopherins) 识别. 核定位信号具有多样性, 包括经典核定位信号(classical NLS,cNLS), 内输蛋白β2识别的核定位信号（又称PY模体-NLS）和其它类型的NLS. 每一类NLS具有相似的特征, 但并不具有完全保守的氨基酸组成. 不同的NLS, 往往对应着各不相同的核输入机制. 而对同一蛋白质来说, 也可能同时拥有几个功能性的NLS. 研究核定位信号一方面可以帮助揭示新的大分子物质核转运机制, 另一方面也有助于发现一些蛋白质的新功能. 本文对常见NLS的分类进行了总结, 并介绍了两种常用的NLS预测软件及鉴定NLS的一般策略.     

人乳头瘤病毒中和表位及抗体中和作用机制的研究进展

人乳头瘤病毒(Human papillomavirus,HPV)是一类无包膜的小DNA病毒,其衣壳蛋白由主要衣壳蛋白L1和次要衣壳蛋白L2组成,持续感染HPV将引起宫颈癌和尖锐湿疣等多种疾病。HPV衣壳蛋白L1和L2中分布着大量中和表位,并具有较强的免疫原性,HPV疫苗可诱导机体产生高滴度的中和抗体并阻碍病毒感染,进而预防宫颈癌等疾病的发生。分析阐述HPV衣壳蛋白中和表位及抗体的中和作用机理,有助于阐明HPV疫苗预防病毒感染的作用机制,为今后设计新一代保护范围更广的HPV疫苗奠定良好的基础。本文就HPV衣壳蛋白中和表位及抗体的中和作用机制进行综述。     

Human antibodies react with an epitope of the human papillomavirus type 6b L1 open reading frame which is distinct from the type-common epitope.

Recombinant proteins encoded by the human papillomavirus type 6b (HPV6b) L1 open reading frame react with sera from patients with condylomata acuminata and also react with rabbit antiserum raised against sodium dodecyl sulfate-disrupted bovine papillomavirus type 1 (BPV1) virions. To map the immunoreactive epitopes, a series of procaryotic expression plasmids was made which contained a nested set of 3' to 5' deletions in the HPV6b L1 open reading frame. The deleted plasmids expressed a set of carboxy to amino terminus truncated fusion proteins. Regions containing the immunoreactive epitopes were mapped by determining which of the deleted fusion proteins retained reactivity with sera in Western immunoblot assays. The coding sequence for a human antibody-reactive linear epitope mapped between HPV6b nucleotide coordinates 7045 and 7087, and the rabbit anti-BPV1-reactive epitope coding sequence mapped between coordinates 6377 and 6454. Synthetic peptides derived from the epitope mapping were reacted with sera in enzyme-linked immunosorbent assay. Human sera reacted with synthetic peptide QSQAITCQKPTPEKEKPDPYK (HPV6b L1 amino acids 417 through 437). Rabbit anti-BPV1 and rabbit antisera raised against HPV16 L1 recombinant proteins reacted with the synthetic peptide DGDMVDTGFGAMNFADLQTNKSDVPIDI (HPV6b L1 amino acids 193 through 220). Human sera which reacted with HPV6b L1 fusion proteins cross-reacted with an HPV11 L1 fusion protein but did not react with fusion proteins encoded by HPV1a, HPV16, or HPV18. Rabbit anti-BPV1 reacted with L1 fusion proteins encoded by all of these HPV types. In contrast to the type-common (rabbit anti-BPV1-reactive) epitope, the human antibody-reactive epitope appears to be relatively HPV type specific.     

In vitro generation and type-specific neutralization of a human papillomavirus type 16 virion pseudotype.

We report a system for generating infectious papillomaviruses in vitro that facilitates the analysis of papillomavirus assembly, infectivity, and serologic relatedness. Cultured hamster BPHE-1 cells harboring autonomously replicating bovine papillomavirus type 1 (BPV1) genomes were infected with recombinant Semliki Forest viruses that express the structural proteins of BPV1. When plated on C127 cells, extracts from cells expressing L1 and L2 together induced numerous transformed foci that could be specifically prevented by BPV neutralizing antibodies, demonstrating that BPV infection was responsible for the focal transformation. Extracts from BPHE-1 cells expressing L1 or L2 separately were not infectious. Although Semliki Forest virus-expressed L1 self-assembled into virus-like particles (VLPs), viral DNA was detected in particles only when L2 was coexpressed with L1, indicating that genome encapsidation requires L2. Expression of human papillomavirus type 16 (HPV16) L1 and L2 together in BPHE-1 cells also yielded infectious virus. These pseudotyped virions were neutralized by antiserum to HPV16 VLPs derived from European (114/K) or African (Z-1194) HPV16 variants but not by antisera to BPV VLPs, to a poorly assembling mutant HPV16 L1 protein, or to VLPs of closely related genital HPV types. Extracts from BPHE-1 cells coexpressing BPV L1 and HPV16 L2 or HPV16 L1 and BPV L2 were not infectious. We conclude that (i) mouse C127 cells express the cell surface receptor for HPV16 and are able to uncoat HPV16 capsids; (ii) if a papillomavirus DNA packaging signal exists, then it is conserved between the BPV and HPV16 genomes; (iii) functional L1-L2 interaction exhibits type specificity; and (iv) protection by HPV virus-like particle vaccines is likely to be type specific.     

Efficient self-assembly of human papillomavirus type 16 L1 and L1-L2 into virus-like particles.

The L1 genes of two human papillomavirus type 16 (HPV16) isolates derived from condylomata acuminata were used to express the L1 major capsid protein in insect cells via recombinant baculoviruses. Both L1 major capsid proteins self-assembled into virus-like particles (VLP) with high efficiency and could be purified in preparative amounts on density gradients. The yield of VLP was 3 orders of magnitude higher than what has been obtained previously, using L1 derived from the prototype HPV16. DNA sequence comparison identified a single nonconserved amino acid change to be responsible for the inefficient self-assembly of the prototype L1. VLP were also obtained by expressing L1 of HPV6, HPV11, and cottontail rabbit papillomavirus, indicating that L1 from a variety of papillomaviruses has the intrinsic capacity to self-assemble into VLP. Coexpression of HPV16 L1 plus L2 by using a baculovirus double-expression vector also resulted in efficient self-assembly of VLP, and the average particle yield increased about fourfold in comparison to when L1 only was expressed. Coimmunoprecipitation of L1 and L2 and cosedimentation of the two proteins in a sucrose gradient demonstrated that L2 was incorporated into the particles. The ability to generate preparative amounts of HPV16 L1 and L1-L2 VLP may have implications for the development of a serological assay to detect anti-HPV16 virion immune responses to conformational epitopes and for immunoprophylaxis against HPV16 infection.     

VLPs Displaying a Single L2 Epitope Induce Broadly Cross-Neutralizing Antibodies against Human Papillomavirus

Background

Virus-like Particles (VLPs) display can be used to increase the immunogenicity of heterologous antigens. Here, we report the use of a bacteriophage MS2-based VLP display platform to develop a monovalent vaccine targeting a broadly neutralizing epitope in the minor capsid protein human papillomavirus (HPV) that provides broad protection from diverse HPV types in a mouse pseudovirus infection model.

Methodology/Principal Findings

Peptides spanning a previously described cross-neutralizing epitope from HPV type 16 were genetically inserted at the N-terminus of MS2 bacteriophage coat protein. Three of the four recombinant L2-coat proteins assembled into VLPs. L2-VLPs elicited high-titer anti-L2 antibodies in mice, similar to recombinant VLPs that we had previously made in which the L2 peptide was displayed on a surface-exposed loop on VLPs of a related bacteriophage, PP7. Somewhat surprisingly, L2-MS2 VLPs elicited antibodies that were much more broadly cross-reactive with L2 peptides from diverse HPV isolates than L2-PP7 VLPs. Similarly, mice immunized with L2-MS2 VLPs were protected from genital and cutaneous infection by highly diverse HPV pseudovirus types.

Conclusion/Significance

We show that peptides can be displayed in a highly immunogenic fashion at the N-terminus of MS2 coat protein VLPs. A VLP-based vaccine targeting HPV L2 elicits broadly cross-reactive and cross-protective antibodies to heterologous HPV types. L2-VLPs could serve as the basis of a broadly protective second generation HPV vaccine.