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      Protective Vaccination against Papillomavirus-Induced Skin Tumors under Immunocompetent and Immunosuppressive Conditions: A Preclinical Study Using a Natural Outbred Animal Model

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          Abstract

          Certain cutaneous human papillomaviruses (HPVs), which are ubiquitous and acquired early during childhood, can cause a variety of skin tumors and are likely involved in the development of non-melanoma skin cancer, especially in immunosuppressed patients. Hence, the burden of these clinical manifestations demands for a prophylactic approach. To evaluate whether protective efficacy of a vaccine is potentially translatable to patients, we used the rodent Mastomys coucha that is naturally infected with Mastomys natalensis papillomavirus (MnPV). This skin type papillomavirus induces not only benign skin tumours, such as papillomas and keratoacanthomas, but also squamous cell carcinomas, thereby allowing a straightforward read-out for successful vaccination in a small immunocompetent laboratory animal. Here, we examined the efficacy of a virus-like particle (VLP)-based vaccine on either previously or newly established infections. VLPs raise a strong and long-lasting neutralizing antibody response that confers protection even under systemic long-term cyclosporine A treatment. Remarkably, the vaccine completely prevents the appearance of benign as well as malignant skin tumors. Protection involves the maintenance of a low viral load in the skin by an antibody-dependent prevention of virus spread. Our results provide first evidence that VLPs elicit an effective immune response in the skin under immunocompetent and immunosuppressed conditions in an outbred animal model, irrespective of the infection status at the time of vaccination. These findings provide the basis for the clinical development of potent vaccination strategies against cutaneous HPV infections and HPV-induced tumors, especially in patients awaiting organ transplantation.

          Author Summary

          Organ transplant recipients (OTR) frequently suffer from fulminant warts that are induced by cutaneous human papillomaviruses (HPV). Moreover, some skin HPV types may also be involved in the development of non-melanoma skin cancer. Mimicking the situation of immunosuppressed OTR who acquire cutaneous HPV infections already in childhood, we explored the efficacy of a vaccine in infected animals that additionally underwent immunosuppression. We demonstrate for the first time the success of a vaccine against a skin papillomavirus in a natural outbred animal system, which completely prevents both benign and malignant skin tumor formation even under immunosuppressed conditions. Hence, our study provides the basis for clinical development of a vaccine against cutaneous HPV infections, which may be particularly useful in transplant recipients.

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          Most cited references50

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          Immune surveillance in the skin: mechanisms and clinical consequences

          Key Points The skin, together with other epithelial-cell interfaces with a hostile environment, supports a range of passive and active immune defence mechanisms. Cutaneous immune responses serve as a model for the study of interactions between innate and acquired immune mechanisms. Adaptive immune surveillance addresses the logistical challenge of targeting naive, effector and memory T cells to their respective sites of function by using distinct homing mechanisms at different stages of the immune response, termed primary, secondary and tertiary immune surveillance. Primary immune surveillance involves the process by which tissue dendritic cells are induced to engulf foreign particles, undergo maturation and emigrate through the afferent lymphatics to the local draining lymph node, where they encounter naive T cells recruited from the peripheral circulation. This greatly increases the efficiency with which naive T cells are exposed to antigens presented by professional antigen-presenting cells. Secondary immune surveillance involves the production and distribution of antigen-specific effector memory T cells that express homing receptors that direct their migration back to the tissue draining the lymph node where activation occurred and their participation in tissue-based immune responses. The persistence of memory T cells with both antigen and tissue specificity also protects against possible future encounters with the same pathogen, by providing a population of antigen-specific effector cells pre-targeted to the site where exposure to that pathogen might most probably recur. Tertiary immune surveillance involves the production of central memory and effector cells potentially directed to lymph nodes and tissues other than the site of primary exposure, providing broad coverage in the event that the pathogen is encountered through a different route. These concepts have implications for the understanding of both inflammatory skin disorders and the development of antitumour and antipathogen vaccine strategies.
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            Gaussia luciferase reporter assay for monitoring biological processes in culture and in vivo.

            Secreted reporters are a useful tool in the monitoring of different biological processes in the conditioned medium of cultured cells as well in the blood and urine of experimental animals. Described here is a protocol for detecting the recently established naturally secreted Gaussia luciferase (Gluc) in cultured cells as well as in blood and urine in vivo. Furthermore, the assay for detecting the secreted alkaline phosphatase (SEAP), the most commonly used secreted reporter in serum, is also presented. The Gluc reporter system has several advantages over the SEAP assay, including a much reduced assay time (1-10 min versus 1.5-2 h), 20,000-fold (in vitro) or 1,000-fold (in vivo) increased sensitivity and a linear range covering over five orders of magnitude of cell number. Additionally, the Gluc signal can be detected in urine and the signal can be localized in animals using in vivo bioluminescence imaging.
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              Understanding and learning from the success of prophylactic human papillomavirus vaccines.

              An estimated 5% of human cancers are caused by human papillomavirus (HPV) infections, and most of these cancers are of the cervix. Two prophylactic HPV vaccines that target the two most oncogenic virus types, HPV16 and HPV18, are now commercially available. In controlled clinical trials, the vaccines proved to be effective at preventing incident anogenital infection and the associated neoplastic disease that is induced by these virus types. Here, we highlight the specific aspects of HPV biology and vaccine composition that are likely to contribute to the efficacy of these vaccines, and we discuss how these particular features might or might not be relevant for the development of effective vaccines against other sexually transmitted viruses such as HIV and herpes simplex virus (HSV).
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                Author and article information

                Contributors
                Role: Editor
                Journal
                PLoS Pathog
                PLoS Pathog
                plos
                plospath
                PLoS Pathogens
                Public Library of Science (San Francisco, USA )
                1553-7366
                1553-7374
                February 2014
                20 February 2014
                : 10
                : 2
                : e1003924
                Affiliations
                [1 ]Division of Viral Transformation Mechanisms, German Cancer Research Center (DKFZ), Heidelberg, Germany
                [2 ]Research Group Tumorvirus-specific Vaccination, German Cancer Research Center (DKFZ), Heidelberg, Germany
                [3 ]Department of Surgery, Experimental Surgery Division, University of Regensburg, Regensburg, Germany
                [4 ]Department of Dermatology, Venereology and Allergy, Skin Cancer Center Charité, University Hospital of Berlin, Berlin, Germany
                [5 ]Department of Cellular and Molecular Pathology, German Cancer Research Center (DKFZ), Heidelberg, Germany
                National Institute of Allergy and Infectious Diseases, United States of America
                Author notes

                The authors have declared that no competing interests exist.

                Conceived and designed the experiments: SEV KS IN FR. Performed the experiments: SEV KS IBW HJG. Analyzed the data: SEV. Contributed reagents/materials/analysis tools: MM EKG HJG. Wrote the paper: SEV FR. Discussed the paper: SEV MM IN EKG HJG KS FR.

                Article
                PPATHOGENS-D-13-02925
                10.1371/journal.ppat.1003924
                3930562
                24586150
                cef94ee2-0cfc-4650-95e2-962fe04b3f63
                Copyright @ 2014

                This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

                History
                : 31 October 2013
                : 27 December 2013
                Page count
                Pages: 13
                Funding
                This work was supported by a grant from the Wilhelm Sander Stiftung (Förderprojekt 2010.019.1), Munich, Germany. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
                Categories
                Research Article
                Biology
                Microbiology
                Virology
                Viral vaccines
                Medicine
                Clinical immunology
                Immunity
                Vaccination
                Vaccines
                Dermatology
                Skin neoplasms
                Benign skin neoplasms
                Malignant skin neoplasms
                Oncology
                Cancer prevention
                Cancer vaccines

                Infectious disease & Microbiology
                Infectious disease & Microbiology

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