Kazunari Yachi

Aberrant hypermethylation of p14ARF and O6-methylguanine-DNA methyltransferase genes in astrocytoma progression.

The aim of the present study was to elucidate genetic alterations that are critically involved in astrocytoma progression. We characterized 27 World Health Organization grade II fibrillary astrocytomas which later underwent recurrence or progression, paying specific attention to the CpG island methylation status of critical growth regulatory genes. p14ARF and O6‐methylguanine‐DNA methyltransferase (MGMT) hypermethylation represented frequent events (26% and 63%, respectively), which were mutually exclusive except in one case, with alternate or simultaneous methylation of these two genes occurring in 85% of our tumor series. Seventeen tumors (63%) contained TP53 mutations, which were closely related to the presence of MGMT methylation. Methylation of the p21Waf1/Cip1, p27Kip1 and p73 genes and homozygous deletion of the p16INK4a, p15INK4b and p14ARF genes were not detected in any of the primary low‐grade tumors. The presence of p14ARF methylation at first biopsy was associated with shorter patient survival, whereas the presence of MGMT methylation carried a better clinical outcome after salvage therapy. Examination of 20 cases whose histological data for recurrent tumors were available revealed that malignant progression occurred in all of the tumors with p14ARF methylation but less frequently (50%) in the lesions with MGMT methylation. On analysis of their respective recurrent tumors, five of six patients whose primary low‐grade tumors carried p14ARF methylation exhibited homozygous co‐deletions of the p14ARF, p15INK4b and p16INK4a genes, which were restricted to glioblastoma as the most malignant end point. Our findings suggest that p14ARF hypermethylation and MGMT hypermethylation constitute distinct molecular pathways of astrocytoma progression, which could differ in biological behavior and clinical outcome.

Pleomorphic granular cell astrocytoma in the pineal gland: case report.

Pleomorphic granular cell astrocytoma in the pineal region is exceedingly rare, and its clinicopathological features are distinctive. A 67‐year‐old woman was admitted with a staggering gait. Magnetic resonance imaging revealed a mass lesion at the pineal gland accompanied by obstructive hydrocephalus. Following surgery, pathological examinations demonstrated a pleomorphic granular cell astrocytoma. The patient has been free from recurrence for 24 months after surgery without adjuvant therapy. The specimen exhibited nuclear and cytoplasmic pleomorphism. The nuclei varied in size, shape and coarseness. Variability was also observed in the eosinophilic granular bodies, Rosenthal fibers and spindle‐shaped tumor cells. GFAP, S‐100 and vimentin were immunohistochemically positive. Reticulin network was absent between the tumor cells, and granular cells with ballooned cytoplasm showing positive staining for PAS. Pleomorphic granular cell astrocytoma is believed to be a form of astrocytoma originating from the pineal gland. Its clinicopathological features resemble those of pleomorphic xanthoastrocytoma. However, it can be differentiated from the latter by the absence of reticulin fibers, absence of basement membrane between adjacent cells, and presence of large numbers of mitochondria.

Gene expression profiles predicting the response to IFN-β and a combination of temozolomide and IFN-β in malignant gliomas

Temozolomide (TMZ) is an alkylating agent that has yielded significant benefits and is a current standard agent in the treatment of malignant gliomas. However, its survival benefit remains unsatisfactory. Recently, a synergistic antitumor effect between TMZ and interferon-β (IFN-β) was reported in malignant glioma cells. The Japan Clinical Oncology Group (JCOG) brain tumor study group has recently began a randomized phase II study to evaluate the clinical effectiveness of combination therapy with TMZ and IFN-β in glioblastomas. However, it is not sufficient just to evaluate the mechanisms and establish an experimental basis for rational clinical therapy with IFN-β and TMZ. The precise mechanisms governing the direct effects of IFN-β and a combination of IFN-β and TMZ in gliomas are not yet fully understood. To gain insight into the mechanisms of sensitivity/resistance involving IFN-β and combination therapy with IFN-β and TMZ, and further to identify new marker(s) that could be used clinically to predict the response to such therapy and new target gene(s) for therapies related to malignant glioma patho-genesis, we evaluated the gene expression profiles of human malignant glioma cell lines employing a high-density oligo-nucleotide DNA array, GeneChip. We present a list of the most highly upregulated and downregulated genes which may be involved in conferring a response to IFN-β and synergistic effect between IFN-β and TMZ in malignant gliomas. Although the present study has several limitations, our reported candidate genes could represent not only potential molecular markers but also chemotherapy targets for improving the treatment outcome by devising strategies that are able to circumvent primary drug resistance in malignant gliomas.

Non-promoter hypermethylation of zygote arrest 1 (ZAR1) in human brain tumors

Zygote arrest 1 (ZAR1) is a novel maternal-effect gene of crucial importance during the oocyte-to-embryo transition. Comprehensive methylation analysis of tumor-specific differently methylated regions in human malignant melanomas has recently led to the identification of non-promoter hypermethylation of the ZAR1 gene that had never been identified as an aberrant methylated region in any human tumor. Notably, ZAR1 hypermethylation was frequently observed in melanomas but was absent in benign nevi, and ZAR1 expression was found to be up-regulated in methylated tumors. These findings prompted us to screen for ZAR1 non-promoter methylation in various types of human brain tumors using MassARRAY EpiTYPER. Strikingly, hypermethylation of ZAR1 was observed frequently in diffuse astrocytomas (100%), anaplastic astrocytomas (94%), glioblastomas (93%), oligodendrogliomas (100%), anaplastic oligodendrogliomas (100%), and pituitary adenomas (90%), but not at all in pilocytic astrocytomas. For other tumor types ZAR1 hypermethylation was infrequent: 17% of vestibular schwannomas and 33% of meningothelial meningiomas. Detectable ZAR1 transcript was not found in any of hypermethylated glioma cell lines. Our results indicate that hypermethylation of the ZAR1 non-promoter is extremely frequent in diffuse gliomas and pituitary adenomas, although ZAR1 expression is unlikely to play a tumorigenic role.

Efficacy of ribavirin against malignant glioma cell lines

Ribavirin (1-β-D-ribofuranosy-1,2,4-triazole-3-carboxamide) has been widely administered as an antiviral agent against RNA and DNA viruses. Ribavirin, in combination with interferon, has predominantly been applied in the treatment of the hepatitis C virus infection and its potential antitumor efficacy has recently become a point of interest. The aim of the present study was to evaluate the effect of ribavirin on the growth of malignant glioma cells, to identify novel predictive genes in malignant glioma cells (by analyzing gene expression profiles) and to assess the influence of ribavirin on the cell cycle of malignant glioma cells. The present study evaluated the antitumor efficacy of ribavirin against various malignant glioma cell lines (A-172, AM-38, T98G, U-87MG, U-138MG, U-251MG and YH-13). After culturing the cells in ribavirin-containing culture medium (final concentration, 0–1,000 μM) for 72 h, the viable proliferated cells were harvested and counted. The half maximal inhibitory concentration of ribavirin, with regard to the growth of the malignant glioma cell lines, was determined from the concentration of ribavirin required for 50% growth inhibition in comparison to the untreated control cells. Furthermore, the current study identified the genes in which the gene expression levels correlated with the ribavirin sensitivity of the malignant glioma cells lines, using a high-density oligonucleotide array. Finally, cell cycle analysis was performed on the U-87MG cell line. It was identified that ribavirin inhibited the growth of all of the malignant glioma cell lines in a dose-dependent manner, although the ribavirin sensitivity varied between each cell line. Of the extracted genes, PDGFRA demonstrated the strongest positive correlation between gene expression level and ribavirin sensitivity. Cell cycle analysis of the U-87MG cell line demonstrated that ribavirin treatment induces G0/G1 arrest and thus may be an effective agent for inhibiting malignant glioma cell growth. Therefore, the results of the current study indicate that ribavirin may have potential as a therapeutic agent in the treatment of malignant gliomas.

Primary Sellar Neuroblastoma in an Elderly Patient: Case Report

A 71-year-old male presented with an isolated well-enhanced sellar lesion accompanied by hypopituitarism, diagnosed preoperatively as a pituitary adenoma, meningioma, or metastatic brain tumor. However, histological examinations yielded a diagnosis of neuroblastoma. Primary sellar neuroblastoma in the elderly is very rare. We therefore describe this case of primary sellar neuroblastoma, mimicking common pituitary tumor, and review the literature. There have so far been only nine reported cases of primary sellar neuroblastoma in the English literature. All reports like the present case, demonstrated similar neuroimaging of a “dumbbell-shaped extension in the sellar region.” Moreover, the tumors may exhibit characteristic features, such as rapid tumor growth, hypopituitarism, or oculomotor nerve palsy, and these findings may represent helpful signs for the diagnosis of primary sellar neuroblastoma.