Survey for human polyomaviruses in cancer
Tuna Toptan, Samuel A. Yousem, Jonhan Ho, Yuki Matsushima, Laura P. Stabile, Maria-Teresa Fernández-Figueras, Rohit Bhargava, Akihide Ryo, Patrick S. Moore, Yuan Chang
Tuna Toptan, Samuel A. Yousem, Jonhan Ho, Yuki Matsushima, Laura P. Stabile, Maria-Teresa Fernández-Figueras, Rohit Bhargava, Akihide Ryo, Patrick S. Moore, Yuan Chang
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Clinical Research and Public Health Virology

Survey for human polyomaviruses in cancer

Abstract

Over the past 8 years, the discovery of 11 new human polyomaviruses (HPyVs) has revived interest in this DNA tumor virus family. Although HPyV infection is widespread and largely asymptomatic, one of these HPyVs, Merkel cell polyomavirus (MCV), is a bona fide human tumor virus. JC virus (JCV), BK virus, HPyV7, and trichodysplasia-spinulosa virus (TSV) can cause nonneoplastic diseases in the setting of immunosuppression. Few specific reagents are available to study the biology of the newly discovered HPyVs. We developed a pan-HPyV-screening method using a cocktail of 3 antibodies that, when combined, recognize T antigen proteins of all HPyVs. We validated detection characteristics of the antibody cocktail by immunoblotting and immunohistochemistry and screened 1,184 cases, including well-defined diseases and tumor tissue microarrays. This assay robustly detected MCV, TSV, JCV, and HPyV7 in etiologically related diseases. We further identified WU polyomavirus in a case of chronic lymphocytic lymphoma-associated bronchitis. Except for scattered, incidentally infected cells in 5% of lung squamous cell carcinomas and colon adenocarcinomas, a broad panel of tumor tissues was largely negative for infection by any HPyV. This method eliminates known HPyVs as suspected causes of cancers investigated in this study. Pan-HPyV survey can be applied to identify diseases associated with recently discovered polyomaviruses.

Authors

Tuna Toptan, Samuel A. Yousem, Jonhan Ho, Yuki Matsushima, Laura P. Stabile, Maria-Teresa Fernández-Figueras, Rohit Bhargava, Akihide Ryo, Patrick S. Moore, Yuan Chang

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Figure 5

Detection and molecular characterization of WU virus isolated from a chronic lymphocytic leukemia patient.

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Detection and molecular characterization of WU virus isolated from a chr...
(A) Hematoxylin and eosin (H&E) staining of a lung tissue biopsy sample shows intranuclear inclusion bodies (black arrows). (B) PAb416 staining correlates with H&E staining and shows nuclear staining of the respiratory epithelium (brown). (A and B) Original magnification, ×20. (C) Specific primers for different human polyomaviruses (HPyVs) were tested on rolling circle amplification products. KI virus/WU virus–specific (KIV/WUV-specific) amplification is indicated with a red arrow. BKV, BK virus; JCV, JC virus; MCV, Merkel cell polyomavirus; TSV, trichodysplasia-spinulosa virus; NJPyV, New Jersey polyomavirus. (D) Genome map of the WUV isolate WU_PITT3. The early region encodes for large T (LT) and small T (sT) antigens. The late region comprises viral capsid protein VP1, VP2, and VP3. The noncoding control region (NCCR) contains the putative origin of replication and promoters. (E) Immunohistochemistry staining of WUV with VP1 antibody shows nuclear and cytoplasmic staining of a large number of lumenally located cells of the dysplastic respiratory epithelia (brown). Original magnification, ×10 (left); ×40 (right).