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8. Developments in L2-based human papillomavirus (HPV) vaccines.

Author

Schellenbacher C, Roden RBS, and Kirnbauer R

Subjects
Animals, Antibodies, Neutralizing biosynthesis, Cancer Vaccines administration & dosage, Cancer Vaccines biosynthesis, Cancer Vaccines immunology, Capsid Proteins chemistry, Capsid Proteins genetics, Cross Protection, Epitopes chemistry, Epitopes immunology, Female, Head and Neck Neoplasms immunology, Head and Neck Neoplasms pathology, Head and Neck Neoplasms virology, Humans, Immunity, Humoral drug effects, Immunogenicity, Vaccine, Mice, Oncogene Proteins, Viral chemistry, Oncogene Proteins, Viral genetics, Papillomaviridae drug effects, Papillomaviridae growth & development, Papillomaviridae immunology, Papillomaviridae pathogenicity, Papillomavirus Infections immunology, Papillomavirus Infections pathology, Papillomavirus Infections virology, Papillomavirus Vaccines administration & dosage, Papillomavirus Vaccines biosynthesis, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins immunology, Uterine Cervical Neoplasms immunology, Uterine Cervical Neoplasms pathology, Uterine Cervical Neoplasms virology, Vaccines, Subunit administration & dosage, Vaccines, Subunit biosynthesis, Vaccines, Subunit immunology, Vaccines, Virus-Like Particle, Antibodies, Viral biosynthesis, Capsid Proteins immunology, Head and Neck Neoplasms prevention & control, Oncogene Proteins, Viral immunology, Papillomavirus Infections prevention & control, Papillomavirus Vaccines immunology, Uterine Cervical Neoplasms prevention & control, Vaccination
Abstract

Infections with sexually transmitted high-risk Human Papillomavirus (hrHPV), of which there are at least 15 genotypes, are responsible for a tremendous disease burden by causing cervical, and subsets of other ano-genital and oro-pharyngeal carcinomas, together representing 5% of all cancer cases worldwide. HPV subunit vaccines consisting of virus-like particles (VLP) self-assembled from major capsid protein L1 plus adjuvant have been licensed. Prophylactic vaccinations with the 2-valent (HPV16/18), 4-valent (HPV6/11/16/18), or 9-valent (HPV6/11/16/18/31/33/45/52/58) vaccine induce high-titer neutralizing antibodies restricted to the vaccine types that cause up to 90% of cervical carcinomas, a subset of other ano-genital and oro-pharyngeal cancers and 90% of benign ano-genital warts (condylomata). The complexity of manufacturing multivalent L1-VLP vaccines limits the number of included VLP types and thus the vaccines' spectrum of protection, leaving a panel of oncogenic mucosal HPV unaddressed. In addition, current vaccines do not protect against cutaneous HPV types causing benign skin warts, or against beta-papillomavirus (betaPV) types implicated in the development of non-melanoma skin cancer (NMSC) in immunosuppressed patients. In contrast with L1-VLP, the minor capsid protein L2 contains type-common epitopes that induce low-titer yet broadly cross-neutralizing antibodies to heterologous PV types and provide cross-protection in animal challenge models. Efforts to increase the low immunogenicity of L2 (poly)-peptides and thereby to develop broader-spectrum HPV vaccines are the focus of this review., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published
2017
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9. Chimeric L2-Based Virus-Like Particle (VLP) Vaccines Targeting Cutaneous Human Papillomaviruses (HPV).

Author

Huber B, Schellenbacher C, Shafti-Keramat S, Jindra C, Christensen N, and Kirnbauer R

Subjects
Animals, Baculoviridae genetics, Baculoviridae metabolism, Capsid Proteins immunology, Electrophoresis, Polyacrylamide Gel, Enzyme-Linked Immunosorbent Assay, Female, Humans, Mice, Mice, Inbred BALB C, Neutralization Tests, Oncogene Proteins, Viral immunology, Sf9 Cells, Papillomaviridae immunology, Papillomavirus Vaccines therapeutic use, Vaccines, Virus-Like Particle therapeutic use
Abstract

Common cutaneous human papillomavirus (HPV) types induce skin warts, whereas species beta HPV are implicated, together with UV-radiation, in the development of non-melanoma skin cancer (NMSC) in immunosuppressed patients. Licensed HPV vaccines contain virus-like particles (VLP) self-assembled from L1 major capsid proteins that provide type-restricted protection against mucosal HPV infections causing cervical and other ano-genital and oro-pharyngeal carcinomas and warts (condylomas), but do not target heterologous HPV. Experimental papillomavirus vaccines have been designed based on L2 minor capsid proteins that contain type-common neutralization epitopes, to broaden protection to heterologous mucosal and cutaneous HPV types. Repetitive display of the HPV16 L2 cross-neutralization epitope RG1 (amino acids (aa) 17-36) on the surface of HPV16 L1 VLP has greatly enhanced immunogenicity of the L2 peptide. To more directly target cutaneous HPV, L1 fusion proteins were designed that incorporate the RG1 homolog of beta HPV17, the beta HPV5 L2 peptide aa53-72, or the common cutaneous HPV4 RG1 homolog, inserted into DE surface loops of HPV1, 5, 16 or 18 L1 VLP scaffolds. Baculovirus expressed chimeric proteins self-assembled into VLP and VLP-raised NZW rabbit immune sera were evaluated by ELISA and L1- and L2-based pseudovirion (PsV) neutralizing assays, including 12 novel beta PsV types. Chimeric VLP displaying the HPV17 RG1 epitope, but not the HPV5L2 aa53-72 epitope, induced cross-neutralizing humoral immune responses to beta HPV. In vivo cross-protection was evaluated by passive serum transfer in a murine PsV challenge model. Immune sera to HPV16L1-17RG1 VLP (cross-) protected against beta HPV5/20/24/38/96/16 (but not type 76), while antisera to HPV5L1-17RG1 VLP cross-protected against HPV20/24/96 only, and sera to HPV1L1-4RG1 VLP cross-protected against HPV4 challenge. In conclusion, RG1-based VLP are promising next generation vaccine candidates to target cutaneous HPV infections., Competing Interests: Reinhard Kirnbauer and Christina Schellenbacher are co-inventors on a patent on RG1-VLP technology: Title: Papillomavirus-like particles (VLP) as broad spectrum human papillomavirus (hpv) vaccines (US 20120093821 A1). The technology has been licensed to Pathovax, Baltimore, a biotech startup company developing this technology. RK and CS also own equity in PathoVax LLC and are member of its scientific advisory board. These arrangements have been reviewed and approved by the Medical University of Vienna and Johns Hopkins University in accordance with their conflict of interest policies. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published
2017
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10. Progress and prospects for L2-based human papillomavirus vaccines.

Author

Jiang RT, Schellenbacher C, Chackerian B, and Roden RB

Subjects
Drug Discovery trends, Humans, Papillomavirus Infections epidemiology, Vaccines, Subunit immunology, Vaccines, Subunit isolation & purification, Capsid Proteins immunology, Papillomavirus Infections prevention & control, Papillomavirus Vaccines immunology, Papillomavirus Vaccines isolation & purification
Abstract

Human papillomavirus (HPV) is a worldwide public health problem, particularly in resource-limited countries. Fifteen high-risk genital HPV types are sexually transmitted and cause 5% of all cancers worldwide, primarily cervical, anogenital and oropharyngeal carcinomas. Skin HPV types are generally associated with benign disease, but a subset is linked to non-melanoma skin cancer. Licensed HPV vaccines based on virus-like particles (VLPs) derived from L1 major capsid antigen of key high risk HPVs are effective at preventing these infections but do not cover cutaneous types and are not therapeutic. Vaccines targeting L2 minor capsid antigen, some using capsid display, adjuvant and fusions with early HPV antigens or Toll-like receptor agonists, are in development to fill these gaps. Progress and challenges with L2-based vaccines are summarized.

Published
2016
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11. Establishment of an in vitro equine papillomavirus type 2 (EcPV2) neutralization assay and a VLP-based vaccine for protection of equids against EcPV2-associated genital tumors.

Author

Schellenbacher C, Shafti-Keramat S, Huber B, Fink D, Brandt S, and Kirnbauer R

Subjects
Animals, Antibodies, Neutralizing immunology, Antibodies, Viral immunology, Carcinoma, Squamous Cell immunology, Carcinoma, Squamous Cell prevention & control, Carcinoma, Squamous Cell virology, Female, Horse Diseases prevention & control, Horse Diseases virology, Horses, Mice, Papillomaviridae genetics, Papillomavirus Infections prevention & control, Papillomavirus Infections virology, Rabbits, Viral Vaccines administration & dosage, Carcinoma, Squamous Cell veterinary, Horse Diseases immunology, Neutralization Tests methods, Papillomaviridae immunology, Papillomavirus Infections immunology, Papillomavirus Infections veterinary, Viral Vaccines immunology
Abstract

The consistent and specific presence of Equus caballus papillomavirus type 2 (EcPV2) DNA and mRNA in equine genital squamous cell carcinoma (gSCC) is suggestive of an etiological role in tumor development. To further validate this concept, EcPV2-neutralizing serum antibody titers were determined by an EcPV2 pseudovirion (PsV) neutralization assay. Furthermore, an EcPV2 L1 virus-like particle (VLP)-based vaccine was generated and its prophylactic efficacy evaluated in vivo. All 6/6 gSCC-affected, but only 3/20 tumor-free age-matched animals revealed EcPV2-neutralizing serum antibody titers by PsV assay. Vaccination of NZW rabbits and BalbC mice with EcPV2 L1 VLP using Freund׳s or alum respectively as adjuvant induced high-titer neutralizing serum antibodies (1600-12,800). Passive transfer with rabbit EcPV2-VLP immune sera completely protected mice from experimental vaginal EcPV2 PsV infection. These findings support the impact of EcPV2 in equine gSCC development and recommend EcPV2 L1 VLP as prophylactic vaccine against EcPV2 infection and associated disease in equids., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
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12. A chimeric 18L1-45RG1 virus-like particle vaccine cross-protects against oncogenic alpha-7 human papillomavirus types.

Author

Huber B, Schellenbacher C, Jindra C, Fink D, Shafti-Keramat S, and Kirnbauer R

Subjects
Alphapapillomavirus immunology, Alphapapillomavirus metabolism, Amino Acid Sequence, Animals, Antibodies, Neutralizing immunology, Antibodies, Viral immunology, Epitopes genetics, Epitopes immunology, Female, HEK293 Cells, Human papillomavirus 18 metabolism, Humans, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Molecular Sequence Data, Papillomavirus Infections prevention & control, Rabbits, Sf9 Cells, Th1 Cells cytology, Th1 Cells immunology, Viral Proteins genetics, Cross Protection immunology, Epitopes metabolism, Papillomavirus Vaccines immunology, Vaccines, Virus-Like Particle immunology, Viral Proteins metabolism
Abstract

Persistent infection with oncogenic human papillomaviruses (HPV) types causes all cervical and a subset of other anogenital and oropharyngeal carcinomas. Four high-risk (hr) mucosal types HPV16, 18, 45, or 59 cause almost all cervical adenocarcinomas (AC), a subset of cervical cancer (CxC). Although the incidence of cervical squamous cell carcinoma (SCC) has dramatically decreased following introduction of Papanicolaou (PAP) screening, the proportion of AC has relatively increased. Cervical SCC arise mainly from the ectocervix, whereas AC originate primarily from the endocervical canal, which is less accessible to obtain viable PAP smears. Licensed (bivalent and quadrivalent) HPV vaccines comprise virus-like particles (VLP) of the most important hr HPV16 and 18, self-assembled from the major capsid protein L1. Due to mainly type-restricted efficacy, both vaccines do not target 13 additional hr mucosal types causing 30% of CxC. The papillomavirus genus alpha species 7 (α7) includes a group of hr types of which HPV18, 45, 59 are proportionally overrepresented in cervical AC and only partially (HPV18) targeted by current vaccines. To target these types, we generated a chimeric vaccine antigen that consists of a cross-neutralizing epitope (homologue of HPV16 RG1) of the L2 minor capsid protein of HPV45 genetically inserted into a surface loop of HPV18 L1 VLP (18L1-45RG1). Vaccination of NZW rabbits with 18L1-45RG1 VLP plus alum-MPL adjuvant induced high-titer neutralizing antibodies against homologous HPV18, that cross-neutralized non-cognate hr α7 types HPV39, 45, 68, but not HPV59, and low risk HPV70 in vitro, and induced a robust L1-specific cellular immune response. Passive immunization protected mice against experimental vaginal challenge with pseudovirions of HPV18, 39, 45 and 68, but not HPV59 or the distantly related α9 type HPV16. 18L1-45RG1 VLP might be combined with our previously described 16L1-16RG1 VLP to develop a second generation bivalent vaccine with extended spectrum against hr HPV.

Published
2015
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13. Efficacy of RG1-VLP vaccination against infections with genital and cutaneous human papillomaviruses.

Author

Schellenbacher C, Kwak K, Fink D, Shafti-Keramat S, Huber B, Jindra C, Faust H, Dillner J, Roden RBS, and Kirnbauer R

Subjects
Animals, Epitopes immunology, Female, Humans, Immunologic Memory, Mice, Mice, Inbred BALB C, Neutralization Tests, Papillomaviridae, Papillomavirus Infections immunology, Rabbits, Reverse Transcriptase Polymerase Chain Reaction, Skin Diseases prevention & control, Skin Diseases virology, T-Lymphocytes cytology, Uterine Cervical Neoplasms prevention & control, Vaccination methods, Capsid Proteins immunology, Oncogene Proteins, Viral immunology, Papillomavirus Infections prevention & control, Papillomavirus Vaccines immunology, Vaccines, Virus-Like Particle immunology
Abstract

Licensed human papillomavirus (HPV) vaccines, based on virus-like particles (VLPs) self-assembled from major capsid protein L1, afford type-restricted protection against HPV types 16/18/6/11 (or 16/18 for the bivalent vaccine), which cause 70% of cervical cancers (CxCas) and 90% of genital warts. However, they do not protect against less prevalent high-risk (HR) types causing 30% of CxCa, or cutaneous HPV. In contrast, vaccination with the minor capsid protein L2 induces low-level immunity to type-common epitopes. Chimeric RG1-VLP presenting HPV16 L2 amino acids 17-36 (RG1 epitope) within the DE-surface loop of HPV16 L1 induced cross-neutralizing antisera. We hypothesized that RG1-VLP vaccination protects against a large spectrum of mucosal and cutaneous HPV infections in vivo. Immunization with RG1-VLP adjuvanted with human-applicable alum-MPL (aluminum hydroxide plus 3-O-desacyl-4'-monophosphoryl lipid A) induced robust L2 antibodies (ELISA titers 2,500-12,500), which (cross-)neutralized mucosal HR HPV16/18/45/37/33/52/58/35/39/51/59/68/73/26/69/34/70, low-risk HPV6/11/32/40, and cutaneous HPV2/27/3/76 (titers 25-1,000) using native virion- or pseudovirion (PsV)-based assays, and a vigorous cytotoxic T lymphocyte response by enzyme-linked immunospot. In vivo, mice were efficiently protected against experimental vaginal challenge with mucosal HR PsV types HPV16/18/45/31/33/52/58/35/39/51/59/68/56/73/26/53/66/34 and low-risk HPV6/43/44. Enduring protection was demonstrated 1 year after vaccination. RG1-VLP is a promising next-generation vaccine with broad efficacy against all relevant mucosal and also cutaneous HPV types.

Published
2013
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14. A quadrivalent HPV vaccine induces humoral and cellular immune responses in WHIM immunodeficiency syndrome.

Author

Handisurya A, Schellenbacher C, Reininger B, Koszik F, Vyhnanek P, Heitger A, Kirnbauer R, and Förster-Waldl E

Subjects
Cell Proliferation, Child, Enzyme-Linked Immunosorbent Assay, Female, Human Papillomavirus Recombinant Vaccine Quadrivalent, Types 6, 11, 16, 18, Humans, Immunologic Deficiency Syndromes congenital, Immunologic Deficiency Syndromes genetics, Lymphocytes immunology, Neutralization Tests, Virion immunology, Immunity, Cellular immunology, Immunity, Humoral immunology, Immunologic Deficiency Syndromes immunology, Papillomavirus Vaccines immunology
Abstract

WHIM-syndrome is an inherited immunodeficiency disorder with abnormal susceptibility to human papillomavirus (HPV) infection and diseases. We determined safety and immunogenicity to a quadrivalent HPV vaccine in WHIM-syndrome by detection of HPV-specific antibodies and lymphoproliferation. In virus-like-particle (VLP)-ELISA, a WHIM patient showed antibody titers up to 400 for HPV-6/11/16/18, whereas immuno-competent controls developed titers of 6400-25,600. In pseudovirion assays, the patient's neutralization titers ranged from 20 to 400 to the four HPV vaccine types, while titers of 1600-25,600 were detected in healthy vaccinees. Specific proliferation of PBMC of the WHIM patient to the HPV vaccine was demonstrated. This first report on response to HPV vaccination in WHIM-immunodeficiency highlights that patients with WHIM-syndrome, and probably other immunodeficiencies, may benefit from HPV immunoprophylaxis., (Copyright 2010 Elsevier Ltd. All rights reserved.)

Published
2010
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15. Bovine papillomavirus type 1 (BPV1) and BPV2 are closely related serotypes.

Author

Shafti-Keramat S, Schellenbacher C, Handisurya A, Christensen N, Reininger B, Brandt S, and Kirnbauer R

Subjects
Animals, Antibodies, Viral blood, Bovine papillomavirus 1 isolation & purification, Capsid Proteins genetics, Cattle, Cattle Diseases prevention & control, Cross Reactions, Horse Diseases prevention & control, Horses, Neutralization Tests, Papillomavirus Infections prevention & control, Papillomavirus Infections virology, Rabbits, Vaccines, Virosome immunology, Bovine papillomavirus 1 immunology, Capsid Proteins immunology, Cattle Diseases virology, Horse Diseases virology, Papillomavirus Infections veterinary, Papillomavirus Vaccines immunology
Abstract

Infection with bovine papillomavirus type 1 (BPV1) or BPV2 induces fibropapillomas in cows and skin sarcoids in horses. Prophylactic vaccination targeting BPV1 and BPV2 may reduce the incidence of these economically important diseases. The L1 major capsid proteins of BPV1 and BPV2 were expressed in Sf-9 insect cells and both self-assembled into virus-like particles (VLPs). Using conformation-dependent monoclonal antibodies (mAb) both type-specific and shared epitopes were detected. Antisera were raised against BPV1 or BPV2 VLP using alum adjuvant, and their (cross)neutralization capacity was tested by C127 neutralization assays using native BPV1 and BPV2 virions, or by BPV1 pseudovirion assay. Antisera induced by either VLP vaccine were able to robustly (cross-)neutralize heterologous as well as homologous types, indicating that BPV1 and BPV2 are closely related serotypes. These results suggest that a monovalent BPV1 (or BPV2) VLP vaccine may potentially protect against both BPV1 and BPV2 infections and associated diseases.

Published
2009
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16. Chimeric L1-L2 virus-like particles as potential broad-spectrum human papillomavirus vaccines.

Author

Schellenbacher C, Roden R, and Kirnbauer R

Subjects
Animals, Capsid chemistry, Epitopes chemistry, Mice, Mice, Inbred BALB C, Microscopy, Electron, Transmission methods, Peptides chemistry, Protein Structure, Tertiary, Rabbits, Recombinant Fusion Proteins chemistry, Risk, Baculoviridae metabolism, Capsid Proteins metabolism, Oncogene Proteins, Viral metabolism, Papillomavirus Vaccines metabolism
Abstract

The amino (N) terminus of the human papillomavirus (HPV) minor capsid protein L2 can induce low-titer, cross-neutralizing antibodies. The aim of this study was to improve immunogenicity of L2 peptides by surface display on highly ordered, self-assembled virus-like particles (VLP) of major capsid protein L1, and to more completely characterize neutralization epitopes of L2. Overlapping peptides comprising amino acids (aa) 2 to 22 (hereafter, chimera or peptide 2-22), 13 to 107, 18 to 31, 17 to 36, 35 to 75, 75 to 112, 115 to 154, 149 to 175, and 172 to 200 of HPV type 16 (HPV16) L2 were genetically engineered into the DE surface loop of bovine papillomavirus type 1 L1 VLP. Except for chimeras 35-75 and 13-107, recombinant fusion proteins assembled into VLP. Vaccination of rabbits with Freund's adjuvanted native VLP induced higher L2-specific antibody titers than vaccination with corresponding sodium dodecyl sulfate-denatured proteins. Immune sera to epitopes within residues 13 to 154 neutralized HPV16 in pseudovirion neutralization assays, whereas chimera 17-36 induced additional cross-neutralization to divergent high-risk HPV18, -31, -45, -52, and -58; low-risk HPV11; and beta-type HPV5 (titers of 50 to 10,000). Aluminum hydroxide-monophosphoryl lipid A (Alum-MPL)-adjuvanted VLP induced similar patterns of neutralization in both rabbits and mice, albeit with 100-fold-lower titers than Freund's adjuvant. Importantly, Alum-MPL-adjuvanted immunization with chimeric HPV16L1-HPV16L2 (peptide 17-36) VLP induced neutralization or cross-neutralization of HPV16, -18, -31, -45, -52, and -58; HPV6 and -11; and HPV5 (titers of 50 to 100,000). Immunization with HPV16 L1-HPV16 L2 (chimera 17-36) VLP in adjuvant applicable for human use induces broad-spectrum neutralizing antibodies against HPV types evolutionarily divergent to HPV16 and thus may protect against infection with mucosal high-risk, low-risk, and beta HPV types and associated disease.

Published
2009
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17. Diseases caused by human papillomaviruses (HPV).

Author

Handisurya A, Schellenbacher C, and Kirnbauer R

Subjects
Humans, Papillomavirus Infections virology, Skin Diseases, Viral virology, Papillomavirus Infections diagnosis, Papillomavirus Infections therapy, Skin Diseases, Viral diagnosis, Skin Diseases, Viral therapy
Abstract

Human papillomaviruses (HPV) are non-enveloped tumor viruses with a double stranded DNA approximately 8 kilobases in length. The viral genome is enclosed by a spherical capsid with icosahedral symmetry and a diameter of about 55 nm. More than 100 HPV types have been identified. They infect the squamous epithelia of skin and mucosa and usually cause benign papillomas or warts. Persistent infection with high-risk oncogenic HPV causes all cervical cancers, most anal cancers, and a subset of vulvar, vaginal, penile and oropharyngeal cancers. In recent years cutaneous beta-HPV types have been associated with the pathogenesis of non-melanoma skin cancers. Two prophylactic HPV vaccines based on virus-like particles (VLP) are licensed. These are up to 100% effective in preventing HPV 16 and HPV 18 infections and associated genital lesions in women, who have not been previously infected with these types. One vaccine also prevents genital warts caused by HPV 6 and HPV 11.

Published
2009
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18. A papillomavirus-like particle (VLP) vaccine displaying HPV16 L2 epitopes induces cross-neutralizing antibodies to HPV11.

Author

Slupetzky K, Gambhira R, Culp TD, Shafti-Keramat S, Schellenbacher C, Christensen ND, Roden RB, and Kirnbauer R

Subjects
Animals, Antibodies, Viral blood, Bovine papillomavirus 1 genetics, Capsid Proteins genetics, Cross Reactions, Epitopes genetics, Genetic Vectors, Humans, Mice, Models, Animal, Neutralization Tests, Oncogene Proteins, Viral genetics, Papillomavirus Vaccines genetics, Rabbits, Vaccines, Virosome immunology, Capsid Proteins immunology, Epitopes immunology, Human papillomavirus 11 immunology, Human papillomavirus 16 immunology, Oncogene Proteins, Viral immunology, Papillomavirus Vaccines immunology
Abstract

Peptides of the papillomavirus L2 minor capsid protein can induce antibodies (Ab) that neutralize a broad range of human papillomavirus (HPV) genotypes. Unfortunately, L2 is antigenically subdominant to L1 in the virus capsid. To induce a strong anti-L2 Ab response with cross-neutralizing activity to other mucosal types, chimeric virus-like particles (VLP) were generated in which HPV16 L2 neutralization epitopes (comprising L2 residues 69-81 or 108-120) are inserted within an immunodominant surface loop (between residues 133 and 134) of the L1 major capsid protein of bovine papillomavirus type 1 (BPV1). These chimeras self-assembled into pentameric capsomers, or complete VLP similar to wild type (wt) L1 protein. Immunization of rabbits with assembled particle preparations induced L2-specific serum Ab with titers 10-fold higher than those induced by cognate synthetic L2 peptides coupled to KLH. Antisera to both chimeric proteins partially neutralized HPV16 pseudovirions, confirming that both HPV16 L2 peptides define neutralization epitopes. When analyzed for the ability to cross-neutralize infection by authentic HPV11 virions, using detection of early viral RNA by RT-PCR-assays as the readout, immune serum to chimeric protein comprising L2 residues 69-81, but not 108-120, was partially neutralizing. In addition, mouse-antiserum induced by vaccinations with synthetic L2 peptide 108-120, but not 69-81, was partially neutralizing in this assay. Induction of cross-neutralization Ab by L2 epitopes displayed on chimeric VLP represents a possible strategy for the generation of broad-spectrum vaccines to protect against relevant mucosal HPV and associated neoplasia.

Published
2007
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