Quantitation of Human Seroresponsiveness to Merkel Cell Polyomavirus

Diana V Pastrana,Yanis L Tolstov,Jürgen C Becker,Christopher B Buck,Patrick S Moore,Yuan Chang,Robert L Garcea

doi:10.1371/journal.ppat.1000578

Diana V Pastrana, Yanis L Tolstov + Show 5 more

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https://doi.org/10.1371/journal.ppat.1000578

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Abstract

Merkel cell carcinoma (MCC) is a relatively uncommon but highly lethal form of skin cancer. A majority of MCC tumors carry DNA sequences derived from a newly identified virus called Merkel cell polyomavirus (MCV or MCPyV), a candidate etiologic agent underlying the development of MCC. To further investigate the role of MCV infection in the development of MCC, we developed a reporter vector-based neutralization assay to quantitate MCV-specific serum antibody responses in human subjects. Our results showed that 21 MCC patients whose tumors harbored MCV DNA all displayed vigorous MCV-specific antibody responses. Although 88% (42/48) of adult subjects without MCC were MCV seropositive, the geometric mean titer of the control group was 59-fold lower than the MCC patient group (p<0.0001). Only 4% (2/48) of control subjects displayed neutralizing titers greater than the mean titer of the MCV-positive MCC patient population. MCC tumors were found not to express detectable amounts of MCV VP1 capsid protein, suggesting that the strong humoral responses observed in MCC patients were primed by an unusually immunogenic MCV infection, and not by viral antigen expressed by the MCC tumor itself. The occurrence of highly immunogenic MCV infection in MCC patients is unlikely to reflect a failure to control polyomavirus infections in general, as seroreactivity to BK polyomavirus was similar among MCC patients and control subjects. The results support the concept that MCV infection is a causative factor in the development of most cases of MCC. Although MCC tumorigenesis can evidently proceed in the face of effective MCV-specific antibody responses, a small pilot animal immunization study revealed that a candidate vaccine based on MCV virus-like particles (VLPs) elicits antibody responses that robustly neutralize MCV reporter vectors in vitro. This suggests that a VLP-based vaccine could be effective for preventing the initial establishment of MCV infection.

Highlights

The Polyomaviridae are a diverse family of non-enveloped DNA viruses named for some family members’ ability to cause various types of tumors in experimentally challenged animals
We found that the magnitude of antibody responses against Merkel cell polyomavirus (MCV) varies dramatically among normal adults
Patients suffering from MCV-associated Merkel cell carcinoma display uniformly strong antibody responses against the virus

Summary

Introduction

The Polyomaviridae are a diverse family of non-enveloped DNA viruses named for some family members’ ability to cause various types of tumors in experimentally challenged animals. A previously unidentified polyomavirus was recently found associated with Merkel cell carcinoma (MCC), a relatively unusual form of skin cancer that tends to strike elderly or immunocompromised individuals ([2], reviewed in [3,4]). Sequences from this new virus, called Merkel cell polyomavirus (MCV or MCPyV), have been confirmed to be present in a majority of MCC tumors [5,6,7,8]. The available evidence suggests that nonproductive integration of MCV genomic DNA into the host cell’s DNA is an etiologic factor underlying the development of most cases of MCC

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