Sir,
An investigation of anti-BK virus antibodies among immunosuppressed patients with BK-related nephropathy was beyond the scope of the EPIC-Oxford cohort study (Newton et al, 2005), but has been carried out by others. Hariharan et al (2005) found that mean BK virus-specific IgG levels in patients with early onset and stabilizing BK virus nephropathy were significantly lower than those seen after the disease had resolved. Mean plasma BK virus load declined over the same period. Chen et al (2006) observed that low anti-BK virus antibodies were associated with a low viral load and strong cytotoxic T lymphocyte (CTL) response and that viral persistence among transplant recipients was associated with high antibody titres and a poor CTL response. However, for results to be truly comparable to those reported by us, antibody titres among such patients would need to be assessed using the same assay, preferably performed at the same time and under the same laboratory conditions.
We agree that our prospective investigation does not exclude the possibility of a ‘hit-and-run’ role for BK virus in the aetiology of any of the cancers studied. However, there is no example of such a mechanism in the aetiology of cancer. Indeed among patients with cancers that are known to be related to prevalent infections, such as Kaposi's sarcoma (human herpesvirus 8), cancer of the uterine cervix (human papillomaviruses) or endemic African Burkitt lymphoma (Epstein Barr virus), elevated titres of antibodies against the relevant viral antigens have been found both in prospective and in retrospective studies (for examples see references: de-Thé et al, 1978; Sitas et al, 1999; Newton et al, 2004; Newton et al, in press).
However, we can also report some additional evidence against a role for BK virus in the aetiology of prostate cancer. Using immunohistochemistry, 10 consecutive prostate cancer tissue sections were incubated with antibodies to the SV40 T antigen. This antibody cross reacts with the BK virus large T-antigen expressed on infected cells and is used routinely to identify polyoma virus infection among transplant recipients with haemorrhagic cystitis or nephropathy (Mann and Carroll, 1984). Presence of viral protein is associated with characteristic nuclear staining. None of the samples tested were positive for SV40T antigen, suggesting that BK viral proteins are not expressed on tumour cells. These results are in accord with those of a previous study, which also reported negative results for bladder cancer (Shah et al, 1978). Lack of BK virus protein does not exclude the possibility that viral DNA is present, although previous studies designed to identify BK virus genomes in normal prostate tissue and in prostate cancer cells have produced inconsistent results and are difficult to interpret (Zambrano et al, 2002; Das et al, 2004).
In relation to bladder cancer, on the basis of only nine cases, we found no evidence that anti-BK virus antibodies were associated with the tumour. Only one published study has reported finding SV40 T antigen present in tumour tissue (but not in adjacent normal tissue), but this was an unusual case in an immunosuppressed transplant recipient (Geetha et al, 2002). Studies of bladder cancer in immunocompetent people have not found SV40 T antigen (Shah et al, 1978). BK virus DNA has been identified in papillary urothelial bladder carcinoma in one study (Monini et al, 1995).
A common morphological sign of active polyoma virus infection is the presence in urine of bladder epithelial cells with typical intranuclear viral inclusions. These ‘decoy cells’ are so named because they mimic the nuclear enlargement and atypia of urothelial carcinomas and can easily be mistaken for malignant cells. Weinreb draws attention to his recent report (Weinreb et al, 2006) in which decoy cells were identified in urine cytology specimens (using the Papinicolaou method) of apparently immunocompetent people who subsequently developed bladder cancer. While interesting, the interpretation of this finding is uncertain. In order to exclude a diagnosis of cancer and confirm BK virus infection, the presence of decoy cells on urine cytology should be followed by staining for SV40 T antigen. No such confirmatory tests were reported by Weinreb and co-workers. Although his study was prospective, no detail is provided about the time between urine cytology and diagnosis of bladder cancer and we suggest that the decoy cells could in fact have been malignant cells, despite the authors' assertion to the contrary. Urine samples were not available in the EPIC-Oxford cohort.
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References
Chen Y, Trofe J, Gordon J, Du Pasquier RA, Roy-Chaudhury P, Kuroda MJ, Woodle ES, Khalili K, Koralnik IJ (2006) Interplay of cellular and humoral immune responses against BK virus in kidney transplant recipients with polyomavirus nephropathy. J Virol 80: 3495–3505
Das D, Shah RB, Imperiale MJ (2004) Detection and expression of human BK virus sequences in neoplastic prostate tissues. Oncogene 23: 7031–7046
Geetha D, Tong BC, Racusen L, Markowitz JS, Westra WH (2002) Bladder carcinoma in a transplant recipient: evidence to implicate the BK human polyomavirus as a causal transforming agent. Transplantation 73: 1933–1936
Hariharan S, Cohen EP, Vasudev B, Orentas R, Viscidi RP, Kakela J, DuChateau B (2005) BK virus-specific antibodies and BKV DNA in renal transplant recipients with BKV nephritis. Am J Transplant 5: 2719–2724
Mann RS, Carroll RB (1984) Cross reaction of BK virus large T antigen with monoclonal antibodies directed against SV40 large T antigen. Virology 138: 379
Monini P, de Lellis L, Rotola A, Di Luca D, Ravaioli T, Bigoni B, Cassai E (1995) Chimeric BK virus DNA episomes in a papillary urothelial bladder carcinoma. Intervirology 38(5): 304–308
Newton R, Bousarghin L, Ziegler J, Casabonne D, Beral V, Mbidde E, Carpenter L, Parkin DM, Wabinga H, Mbulaiteye S, Jaffe H, Touzé A, Coursaget P, The Uganda Kaposi's Sarcoma Study Group (2004) Human papillomaviruses and cancer in Uganda. Eur J Cancer Prev 13(2): 113–118
Newton R, Carpenter L, Casabonne D, Beral V, Babiker A, Darbyshire J, Weller I, Weiss R, Kwan A, Bourboulia D, Munoz F, Lagos D, Boshoff C (2006) A prospective study of Kaposi's sarcoma-associated herepesvirus and Epstein Barr virus in adults with human immunodeficiency virus-1. Br J Cancer 94: 1504–1509
Newton R, Ribeiro T, Casabonne D, Alvarez E, Touzé A, Key T, Coursaget P (2005) Antibodies against BK virus and cancers of the prostate, kidney and bladder in the EPIC-Oxford cohort. Br J Cancer 93: 1305–1306
Shah KV, Daniel RW, Stone KR, Elliott AY (1978) Investigation of human urogenital tract tumours of papovavirus etiology: brief communication. J Natl Cancer Inst 60(3): 579–582
Sitas F, Carrara H, Beral V, Newton R, Reeves G, Bull D, Patel M, Ruff P, Bezwoda WR, Hale M, Jentsh U, Retter E, Pacella-Norman R, Bourboulia D, Whitby D, Boshoff C, Weiss R (1999) The seroepidemiology of HHV-8/KSHV in a large population of black cancer patients in South Africa. N Engl J Med 340: 1863–1871
de Thé G, Geser A, Day NE, Tukei PM, Williams EH, Beri DP, Smith PG, Dean AG, Bronkamm GW, Feorino P, Henle W (1978) Epidemiological evidence for a causal relationship between the Epstein-Barr virus and Burkitt's lymphoma from Ugandan prospective study. Nature 274: 756–761
Weinreb DB, Desman GT, Amolat-Apiado MJM, Burstein DE, Godbold Jr JH, Johnson EM (2006) Polyomavirus infection is a prominent risk factor for bladder carcinoma in immunocompetent individuals. Diag Cytopathol 34(3): 201–203
Zambrano A, Kalantari M, Simoneau A, Jensen JL, Villarreal LP (2002) Detection of human polyomavirus and papillomavirus in prostatic tissue reveals the prostate as a habitat for multiple viral infections. Prostate 53(4): 263–276
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Newton, R., Coursaget, P. & Roberts, I. Reply: Antibody levels against BK virus and prostate, kidney and bladder cancers in the EPIC-Oxford cohort. Br J Cancer 94, 1949–1950 (2006). https://doi.org/10.1038/sj.bjc.6603125
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DOI: https://doi.org/10.1038/sj.bjc.6603125