Our overall goal is to understand how L2-specific antibodies effect broad protection against HPV infection. Here, we dissect why L2 and intra-membranous cleavage by gamma-secretase are required for infection, and how antibodies to L2 potently protect by neutralization at multiple steps during infection. In the initial funding perio we made the surprising observation that gamma-secretase is absolutely required for infection by HPV (Karanam et al., 2010), but only once HPV has begun to disassemble in the late endosome and gamma-secretase's proteolytic activity is required for escape from late endosomes of L2 in association with the viral genome. Recent findings suggest that L2 has a transmembrane-like domain between residues 45-67 that is essential for infection. We propose that the putative transmembrane region pierces the endosomal membrane, and gamma-secretase cleavage releases L2's carboxy terminus to bring the viral genome to the nucleus. Two key neutralizing epitopes in L2 reside either side of L2's putative transmembrane domain. Addition of L2 antibodies even several hours after the binding of virus to cells is neutralizing, suggesting blockade occurs late in infection. Therefore, we propose: Hypothesis 1: cleavage of L2 within its putative transmembrane region by gamma-secretase is critical for endosomal escape and is inhibited by L2-specific neutralizing antibodies.
Specific Aim 1 A: To determine the residues of L2 required for membrane insertion and whether they contribute to infectivity by facilitating endosomal escape.
Specific Aim 1 B: To determine the functional role and site of gamma secretase cleavage during HPV infection and the impact of L2-specific neutralizing antibodies and gamma secretase inhibitors on endosomal escape. Antibodies have generally been assumed to effect protection in a purely extracellular manner, as they are not generally found in the cytoplasm. Recently however, a TRIM21-dependent mechanism of antibody- dependent intracellular neutralization (ADIN) has been described. TRIM21 is a cytoplasmic high affinity Fc- receptor for the Fc of virally-associated antibody in the cytoplasm, triggering degradation of the antibody-bound virus. Our new findings suggest that ADIN may be important last line of defense in protection mediated by L2 antibodies. Hypothesis 2: the Fc-region of L2-specific neutralizing antibodies is important for mediating antibody- dependent intracellular neutralization (ADIN) and protection against papillomavirus challenge.
Specific Aim 2 A: To determine whether binding of the Fc of L2-specific antibodies to TRIM21 contributes to antibody-dependent intracellular neutralization and if this is restricted to particular epitopes.
Specific Aim 2 B: To determine the contribution of TRIM21 to protection by HPV vaccination.

Public Health Relevance

Cervical and other anogenital cancers, and a subset of head and neck cancers are caused by 'high risk' human papillomaviruses (HPV) and account for 5% of all cancers worldwide (10% of all cancers in women worldwide). Immune suppressed patients exhibit more severe and progressive HPV disease, and consequently cervical cancer has been designated an HIV-associated malignancy. Low risk HPVs cause skin and genital warts, responsible for considerable morbidity and health care costs. Non-melanoma skin cancers in epidermodysplasia verruciformis and immune compromised patients are also linked to HPV. This proposal seeks to understand the role in HPV infection of the minor capsid protein L2, and examine how L2-specific antibodies can protect from the acquisition of HPV infections.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA118790-10
Application #
9437693
Study Section
Virology - B Study Section (VIRB)
Program Officer
Read-Connole, Elizabeth Lee
Project Start
2007-07-19
Project End
2019-02-28
Budget Start
2018-03-01
Budget End
2019-02-28
Support Year
10
Fiscal Year
2018
Total Cost
Indirect Cost
Name
Johns Hopkins University
Department
Pathology
Type
Schools of Medicine
DUNS #
001910777
City
Baltimore
State
MD
Country
United States
Zip Code
21205
Ahn, Julie; Bishop, Justin A; Roden, Richard B S et al. (2018) The PD-1 and PD-L1 pathway in recurrent respiratory papillomatosis. Laryngoscope 128:E27-E32
Bywaters, S M; Brendle, S A; Biryukov, J et al. (2018) Production and characterization of a novel HPV anti-L2 monoclonal antibody panel. Virology 524:106-113
Jiang, Rosie T; Wang, Joshua W; Peng, Shiwen et al. (2017) Spontaneous and Vaccine-Induced Clearance of Mus Musculus Papillomavirus 1 Infection. J Virol 91:
Schellenbacher, Christina; Roden, Richard B S; Kirnbauer, Reinhard (2017) Developments in L2-based human papillomavirus (HPV) vaccines. Virus Res 231:166-175
Pogoda, Cloe S; Roden, Richard B S; Garcea, Robert L (2016) Immunizing against Anogenital Cancer: HPV Vaccines. PLoS Pathog 12:e1005587
Jiang, Rosie T; Schellenbacher, Christina; Chackerian, Bryce et al. (2016) Progress and prospects for L2-based human papillomavirus vaccines. Expert Rev Vaccines 15:853-62
Wang, Joshua W; Jiang, Rosie; Peng, Shiwen et al. (2015) Immunologic Control of Mus musculus Papillomavirus Type 1. PLoS Pathog 11:e1005243
Wang, Joshua W; Jagu, Subhashini; Wu, Wai-Hong et al. (2015) Seroepidemiology of Human Papillomavirus 16 (HPV16) L2 and Generation of L2-Specific Human Chimeric Monoclonal Antibodies. Clin Vaccine Immunol 22:806-16
Wang, Joshua W; Matsui, Ken; Pan, Yuanji et al. (2015) Production of Furin-Cleaved Papillomavirus Pseudovirions and Their Use for In Vitro Neutralization Assays of L1- or L2-Specific Antibodies. Curr Protoc Microbiol 38:14B.5.1-26
Peng, Shiwen; Wang, Joshua W; Karanam, Balasubramanyam et al. (2015) Sequential cisplatin therapy and vaccination with HPV16 E6E7L2 fusion protein in saponin adjuvant GPI-0100 for the treatment of a model HPV16+ cancer. PLoS One 10:e116389

Showing the most recent 10 out of 47 publications