The oncolytic adenovirus VCN-01 promotes anti-tumor effect in primitive neuroectodermal tumor models.

Last advances in the treatment of pediatric tumors has led to an increase of survival rates of children affected by primitive neuroectodermal tumors, however, still a significant amount of the patients do not overcome the disease. In addition, the survivors might suffer from severe side effects caused by the current standard treatments. Oncolytic virotherapy has emerged in the last years as a promising alternative for the treatment of solid tumors. In this work, we study the anti-tumor effect mediated by the oncolytic adenovirus VCN-01 in CNS-PNET models. VCN-01 is able to infect and replicate in PNET cell cultures, leading to a cytotoxicity and immunogenic cell death. In vivo, VCN-01 increased significantly the median survival of mice and led to long-term survivors in two orthotopic models of PNETs. In summary, these results underscore the therapeutic effect of VCN-01 for rare pediatric cancers such as PNETs, and warrants further exploration on the use of this virus to treat them.

Glioblastoma multiforme with small cell neuronal-like component: association with human neurotropic JC virus.

The human polyomavirus JCV, the etiological agent of progressive multifocal leukoencephalopathy, has been associated with primitive neuroectodermal tumors and various glial-derived tumors, including glioblastoma multiforme (GBM). Here we describe the unique clinical case of a 54-year-old man who presented with headaches, hemiparesis and drowsiness. T1 and T2 magnetic resonance images revealed a large solid tumor with a cystic component located in the right temporal lobe, with extension into the parietal lobe. Histologically, the tumor was composed of two areas, a main area of large neoplastic cells with pleomorphic atypical nuclei and abundant cytoplasm, which by immunohistochemistry was reactive for glial fibrillary acidic protein, mixed with several foci of poorly differentiated tumoral cells with elongated nuclei and scant cytoplasm, negative for GFAP, but robustly immunoreactive for synaptophysin and phosphoneurofilaments. Results from PCR in laser capture microdissected cells from both areas of the tumor revealed the presence of DNA sequences corresponding to the early, late and control regions (CR) of the JCV genome and expression of JCV proteins T-antigen and Agnoprotein in both phenotypes. No evidence for capsid protein was observed, excluding productive viral infection. Sequencing demonstrated the presence of the JCV Mad-1 strain with distinct point mutations in the CR of isolates from both, GBM and small cell architectural areas. The presence of JCV DNA sequences and expression of viral proteins further reinforces the role of the widely spread human neurotropic virus in early transformation and in the development of brain tumors.

Increased p53 immunopositivity in anaplastic medulloblastoma and supratentorial PNET is not caused by JC virus.

BACKGROUND: p53 mutations are relatively uncommon in medulloblastoma, but abnormalities in this cell cycle pathway have been associated with anaplasia and worse clinical outcomes. We correlated p53 protein expression with pathological subtype and clinical outcome in 75 embryonal brain tumors. The presence of JC virus, which results in p53 protein accumulation, was also examined. METHODS: p53 protein levels were evaluated semi-quantitatively in 64 medulloblastomas, 3 atypical teratoid rhabdoid tumors (ATRT), and 8 supratentorial primitive neuroectodermal tumors (sPNET) using immunohistochemistry. JC viral sequences were analyzed in DNA extracted from 33 frozen medulloblastoma and PNET samples using quantitative polymerase chain reaction. RESULTS: p53 expression was detected in 18% of non-anaplastic medulloblastomas, 45% of anaplastic medulloblastomas, 67% of ATRT, and 88% of sPNET. The increased p53 immunoreactivity in anaplastic medulloblastoma, ATRT, and sPNET was statistically significant. Log rank analysis of clinical outcome revealed significantly shorter survival in patients with p53 immunopositive embryonal tumors. No JC virus was identified in the embryonal brain tumor samples, while an endogenous human retrovirus (ERV-3) was readily detected. CONCLUSION: Immunoreactivity for p53 protein is more common in anaplastic medulloblastomas, ATRT and sPNET than in non-anaplastic tumors, and is associated with worse clinical outcomes. However, JC virus infection is not responsible for increased levels of p53 protein.

Insulin-like growth factor I receptor signaling system in JC virus T antigen-induced primitive neuroectodermal tumors--medulloblastomas.

Medulloblastomas represent about 25% of all pediatric intracranial neoplasms. These highly malignant tumors arise from the cerebellum, affecting mainly children between ages 5 and 15. Although the etiology of medulloblastomas has not yet been elucidated, several reports suggest that both the cellular protein insulin-like growth factor I (IGF-I) and the early protein of the human polyomavirus JC (JCV T antigen) may contribute to the development of these tumors. The results of this study show a potential functional cooperation between these two proteins in the process of malignant transformation. Both medulloblastoma cell lines and medulloblastoma biopsies are characterized by the abundant presence of the IGF-I receptor (IGF-IR) and its major signaling molecule, insulin receptor substrate 1 (IRS-1). Importantly, IRS-1 is translocated to the nucleus in the presence of the JCV T antigen. Nuclear IRS-1 was detected in T antigen-positive cell lines and in T antigen-positive biopsies from patients diagnosed with medulloblastoma. The IRS-1 domain responsible for a direct JCV T antigen binding was localized within the N-terminal portion of IRS-1 molecule and the competition for IRS-1 T antigen binding by a dominant-negative mutant of IRS-1 inhibited growth and survival of JCV T antigen-transformed cells in anchorage-independent culture condition.

Medulloblastomas and primitive neuroectodermal tumors rarely contain polyomavirus DNA sequences.

To address the hypothesis that medulloblastoma or supratentorial primitive neuroectodermal tumor (sPNET) can arise through infection by polyomaviruses, we examined genomic DNA isolated from 15 primary medulloblastoma and 5 sPNET biopsy specimens and from 2 medulloblastoma cell lines for the presence of DNA sequences from the polyomaviruses simian virus 40 (SV40), JC virus, and BK virus. These polyomaviruses have oncogenic potential in animals, and their DNA sequences have been detected in other surveys of various solid tumors, including childhood brain tumors. The tumor DNA samples were analyzed by Southern blot hybridization of polymerase chain reaction products that employed probes designed to detect specific polyomavirus sequences. Neither JC virus nor BK virus DNA sequences were detected in any of the specimens. None of the primary medulloblastoma or sPNET specimens contained SV40 sequences. However, SV40 DNA coding and noncoding sequences were detected in the D283-Med (medulloblastoma) cell line. Immunocytochemical studies of D283-Med revealed nuclear expression of SV40 large T antigen. In contrast to childhood ependymomas and choroid plexus tumors, medulloblastomas and sPNETs infrequently express evidence of polyomavirus infection.