T antigen mutations are a human tumor-specific signature for Merkel cell polyomavirus

Shuda, Masahiro; Feng, Huichen; Kwun, Hyun Jin; Rosen, Steven T.; Gjoerup, Ole; Moore, Patrick S.; Chang, Yuan

doi:10.1073/pnas.0806526105

Cited by 639 publications

(961 citation statements)

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“…Merkel cell polyomavirus has a large T antigen LXCXE domain that, when expressed, binds directly to retinoblastoma protein. 45 Several lines of evidence have suggested We found that polyomavirus-negative cases with little or no detectable polyomavirus by sensitive real-time polymerase chain reaction had truncating, nonsense RB1 mutations. Even though two of the five polyomavirus-positive cases showed RB1 deletions (one case with a deletion and one with copy number variation), there were no single-nucleotide variation truncating nonsense mutations within polyomavirus-positive cases.…”

Section: Discussionmentioning

confidence: 79%

Retinoblastoma gene mutations detected by whole exome sequencing of Merkel cell carcinoma

et al. 2014

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Merkel cell carcinoma is a highly aggressive cutaneous neuroendocrine tumor that has been associated with Merkel cell polyomavirus in up to 80% of cases. Merkel cell polyomavirus is believed to influence pathogenesis, at least in part, through expression of the large T antigen, which includes a retinoblastoma protein-binding domain. However, there appears to be significant clinical and morphological overlap between polyomaviruspositive and polyomavirus-negative Merkel cell carcinoma cases. Although much of the recent focus of Merkel cell carcinoma pathogenesis has been on polyomavirus, the pathogenesis of polyomavirus-negative cases is still poorly understood. We hypothesized that there are underlying human somatic mutations that unify Merkel cell carcinoma pathogenesis across polyomavirus status, and to investigate we performed whole exome sequencing on five polyomavirus-positive cases and three polyomavirus-negative cases. We found that there were no significant differences in the overall number of single-nucleotide variations, copy number variations, insertion/deletions, and chromosomal rearrangements when comparing polyomavirus-positive to polyomavirus-negative cases. However, we did find that the retinoblastoma pathway genes harbored a high number of mutations in Merkel cell carcinoma. Furthermore, the retinoblastoma gene (RB1) was found to have nonsense truncating protein mutations in all three polyomavirus-negative cases; no such mutations were found in the polyomavirus-positive cases. In all eight cases, the retinoblastoma pathway dysregulation was confirmed by immunohistochemistry. Although polyomavirus-positive Merkel cell carcinoma is believed to undergo retinoblastoma dysregulation through viral large T antigen expression, our findings demonstrate that somatic mutations in polyomavirus-negative Merkel cell carcinoma lead to retinoblastoma dysregulation through an alternative pathway. This novel finding suggests that the retinoblastoma pathway dysregulation leads to an overlapping Merkel cell carcinoma phenotype and that oncogenesis occurs through either a polyomavirusdependent (viral large T antigen expression) or polyomavirus-independent (host somatic mutation) mechanism. Modern Pathology (2014) 27, 1073-1087; doi:10.1038/modpathol.2013.235; published online 10 January 2014Keywords: Merkel cell carcinoma; retinoblastoma; whole exome sequencing; polyomavirus Merkel cell carcinoma is a rare neuroendocrine tumor of the skin with an aggressive clinical course and an increased prevalence in the elderly and immunosuppressed. 1 The incidence of Merkel cell carcinoma has increased in the last several decades, and the United States has an estimated incidence rate of 0.32 per 100 000 persons per year. 2 Merkel cell carcinoma has a predilection for sun exposed areas, most often occurring in the head and neck region. 3 There is an overall 5-year survival rate of 40%, with stage being a significant prognosticator. 3,4 Merkel cell polyomavirus was discovered in Merkel cell carcinoma and found to be clonally integ...

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Section: Discussionmentioning

confidence: 79%

Retinoblastoma gene mutations detected by whole exome sequencing of Merkel cell carcinoma

et al. 2014

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“…It was the first human pathogen discovered through nondirected transcriptome sequencing using an approach called digital transcriptome subtraction. MCV infection is nearly ubiquitous among human adults, and MCC tumors arise as rare biological accidents after prolonged infection in which the MCV genome becomes integrated into the host cell genome and mutations to the 3′ MCV LT gene clonally occur that eliminate the carboxyl terminus T antigen helicase domain (12)(13)(14). The viral integration and T antigen mutations that occur in tumors are incompatible with transmissible MCV replication, and tumors represent a biological dead end for the virus.…”

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confidence: 99%

Protein-mediated viral latency is a novel mechanism for Merkel cell polyomavirus persistence

Kwun

Chang

2017

Proc. Natl. Acad. Sci. U.S.A.

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Viral latency, in which a virus genome does not replicate independently of the host cell genome and produces no infectious particles, is required for long-term virus persistence. There is no known latency mechanism for chronic small DNA virus infections. Merkel cell polyomavirus (MCV) causes an aggressive skin cancer after prolonged infection and requires an active large T (LT) phosphoprotein helicase to replicate. We show that evolutionarily conserved MCV LT phosphorylation sites are constitutively recognized by cellular Fbw7, βTrCP, and Skp2 Skp-F-box-cullin (SCF) E3 ubiquitin ligases, which degrade and suppress steady-state LT protein levels. Knockdown of each of these E3 ligases enhances LT stability and promotes MCV genome replication. Mutations at two of these phosphoreceptor sites [serine (S)220 and S239] in the full viral genome increase LT levels and promote MCV virion production and transmission, which can be neutralized with anti-capsid antibody. Virus activation is not mediated by viral gene transactivation, given that these mutations do not increase late gene transcription in the absence of genome replication. Mechanistic target of rapamycin inhibition by either nutrient starvation or use of an active site inhibitor reduces Skp2 levels and stabilizes LT, leading to enhanced MCV replication and transmission. MCV can sense stresses in its intracellular environment, such as nutrient loss, through SCF E3 ligase activities, and responds by initiating active viral transmission. Protein-mediated viral latency through cellular SCF E3 ligase targeting of viral replication proteins is a unique form of latency that may promote chronic viral persistence for some small DNA and RNA viruses.Merkel cell polyomavirus | large T | latency | E3 ligase | transmission

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“…Merkel cell polyomavirus in Merkel cell carcinoma displays clonal integration, high viral copy number, and tumorspecific mutations of large T antigen resulting in incapacity to replicate. 5,17,18,32 Furthermore, in vitro studies support a role for Merkel cell polyomavirus T antigens, especially small T antigen, in transformation and cell survival. 5 Most studies have reported that a significant minority of Merkel cell carcinoma lack detectable Merkel cell polyomavirus, 5 raising the question of how Merkel cell polyomavirus-negative tumors might differ from Merkel cell polyomavirus-positive tumors.…”

Section: Discussionmentioning

confidence: 96%

“…5 Merkel cell polyomavirus associated with Merkel cell carcinoma displays tumor-specific mutations or deletions in large T antigen which render the virus replication deficient, a common characteristic of oncogenic viruses. 5,18 Although numerous assays for Merkel cell polyomavirus detection have been reported, PCR targeting small T antigen and/or the 5' region of large T antigen is commonly used and highly sensitive. [19][20][21] Although present in the majority of Merkel cell carcinoma, Merkel cell polyomavirus has not been commonly observed in other malignancies.…”

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confidence: 99%

Cytokeratin 20-negative Merkel cell carcinoma is infrequently associated with the Merkel cell polyomavirus

et al. 2015

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Merkel cell carcinoma is a rare, highly aggressive cutaneous neuroendocrine carcinoma most commonly seen in sun-damaged skin. Histologically, the tumor consists of primitive round cells with fine chromatin and numerous mitoses. Immunohistochemical stains demonstrate expression of neuroendocrine markers. In addition, cytokeratin 20 (CK20) is expressed in B95% of cases. In 2008, Merkel cell carcinoma was shown to be associated with a virus now known as Merkel cell polyomavirus in B80% of cases. Prognostic and mechanistic differences between Merkel cell polyomavirus-positive and Merkel cell polyomavirus-negative Merkel cell carcinoma may exist. There has been the suggestion that CK20-negative Merkel cell carcinomas less frequently harbor Merkel cell polyomavirus, but a systematic investigation for Merkel cell polyomavirus incidence in CK20-negative Merkel cell carcinoma has not been done. To test the hypothesis that Merkel cell polyomavirus is less frequently associated with CK20-negative Merkel cell carcinoma, we investigated 13 CK20-negative Merkel cell carcinomas from the files of the Cleveland Clinic and the University of Michigan for the virus. The presence or absence of Merkel cell polyomavirus was determined by quantitative PCR performed for Large T and small T antigens, with sequencing of PCR products to confirm the presence of Merkel cell polyomavirus. Ten of these (77%) were negative for Merkel cell polyomavirus and three (23%) were positive for Merkel cell polyomavirus. Merkel cell polyomavirus is less common in CK20-negative Merkel cell carcinoma. Larger series and clinical follow-up may help to determine whether CK20-negative Merkel cell carcinoma is mechanistically and prognostically unique.

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T antigen mutations are a human tumor-specific signature for Merkel cell polyomavirus

Cited by 639 publications

References 37 publications

Retinoblastoma gene mutations detected by whole exome sequencing of Merkel cell carcinoma

Retinoblastoma gene mutations detected by whole exome sequencing of Merkel cell carcinoma

Protein-mediated viral latency is a novel mechanism for Merkel cell polyomavirus persistence

Cytokeratin 20-negative Merkel cell carcinoma is infrequently associated with the Merkel cell polyomavirus

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