山田 勢至

Background: Single-gene mutation syndromes account for some familial glioma (FG); however, they make up only a small fraction of glioma families. Gliomas can be classified into 3 major molecular subtypes based on isocitrate dehydrogenase (IDH) mutation and 1p/19q codeletion. We hypothesized that the prevalence of molecular subtypes might differ in familial versus sporadic gliomas and that tumors in the same family should have the same molecular subtype. Methods: Participants in the FG study (Gliogene) provided samples for germline DNA analysis. Formalin-fixed, paraffin-embedded tumors were obtained from a subset of FG cases, and DNA was extracted. We analyzed tissue from 75 families, including 10 families containing a second affected family member. Copy number variation data were obtained using a first-generation Affymetrix molecular inversion probe (MIP) array. Results: Samples from 62 of 75 (83%) FG cases could be classified into the 3 subtypes. The prevalence of the molecular subtypes was: 30 (48%) IDH-wildtype, 21 (34%) IDH-mutant non-codeleted, and 11 (19%) IDH-mutant and 1p/19q codeleted. This distribution of molecular subtypes was not statistically different from that of sporadic gliomas (P = 0.54). Of 10 paired FG samples, molecular subtypes were concordant for 7 (κ = 0.59): 3 IDH-mutant non-codeleted, 2 IDH-wildtype, and 2 IDH-mutant and 1p/19q codeleted gliomas. Conclusions: Our data suggest that within individual families, patients develop gliomas of the same molecular subtype. However, we did not observe differences in the prevalence of the molecular subtypes in FG compared with sporadic gliomas. These observations provide further insight into the distribution of molecular subtypes in FG.

Pleomorphic xanthoastrocytoma (PXA) is a rare localized glioma characterized by frequent BRAF V600E mutation and CDKN2A/B deletion. We explored the association of copy-number variants (CNVs) with BRAF mutations, tumor grade, and patient survival in a cohort of 41 PXA patients using OncoScan chromosomal microarray. Primary resection specimens were available in 38 cases, including 24 PXA and 14 anaplastic PXA (A-PXA), 23 BRAF V600E mutant tumors (61%). CNVs were identified in all cases and most frequently involved chromosome 9 with homozygous CDKN2A/B deletion (n = 33, 87%), a higher proportion than previously detected by comparative genomic hybridization (50%-60%) (37). CDKN2A/B deletion was present in similar proportion of PXA (83%), A-PXA (93%), BRAF V600E (87%), and wild-type (87%) tumors. Whole chromosome gains/losses were frequent, including gains +7 (n = 15), +2 (n = 11), +5 (n = 10), +21 (n = 10), +20 (n = 9), +12 (n = 8), +15 (n = 8), and losses -22 (n = 11), -14 (n = 7), -13 (n = 5). Losses and copy-neutral loss of heterozygosity were significantly more common in A-PXA, involving chromosomes 22 (P = 0.009) and 14 (P = 0.03). Amplification of 8p and 12q was identified in a single tumor. Histologic grade was a robust predictor of overall survival (P = 0.003), while other copy-number changes, including CDKN2A/B deletion, did not show significant association with survival. Distinct histologic patterns of anaplasia included increased mitotic activity in an otherwise classic PXA or associated with small cell, fibrillary, or epithelioid morphology, with loss of SMARCB1 expression in one case. In 10 cases, matched specimens were compared, including A-PXA with areas of distinct low- and high-grade morphology (n = 2), matched primary/tumor recurrence (n = 7), or both (n = 1). Copy-number changes on recurrence/anaplastic transformation were complex and highly variable, from nearly identical profiles to numerous copy-number changes. Overall, we confirm CDKN2A/B deletion as key a feature of PXA not associated with tumor grade or BRAF mutation, but central to the underlying genetics of PXA.

Dentatorubral-pallidoluysian atrophy (DRPLA), one of the polyglutamine diseases, has not been reported in combination with ganglioglioma (GG). Herein, we report an autopsy case of a 72-year-old man with DRPLA with a small GG component harboring neurofibrillary tangles (NFTs) and polyglutamine aggregates. NFTs, cytoplasmic accumulations of hyper-phosphorylated tau, are mainly observed in Alzheimer's disease (AD) and other tau-associated neurodegenerative disorders. NFTs can also be present in normal aging, and are occasionally observed in low-grade central nervous system (CNS) neoplasms such as GG. In the present case, whole brain examination demonstrated widespread deposition of polyglutamine aggregates, including GG, whereas NFTs were restricted to the GG component. In addition, no other AD or aging-related neuropathological structures were detected throughout the CNS. These findings may provide us with clues to elucidate the pathogenetic mechanisms that neuronal neoplasms may have to develop NFTs regardless of aging, and that polyglutamine may accumulate in neoplastic neurons in polyglutamine disease.

Hypothalamic hamartomas are rare tumors that typically present in childhood, often with gelastic seizures, precocious puberty, or as a manifestation of Pallister-Hall syndrome. Neurofibrillary tangles are cytoplasmic aggregates of hyperphosphorylated tau that are best recognized in Alzheimer disease, other tau-associated neurodegenerative diseases, or as part of aging, but occasionally may be seen in low-grade neoplasms with a ganglion cell component as gangliocytoma or ganglioglioma. Herein, we report a case of hypothalamic hamartoma with neurofibrillary tangles.

Pleomorphic xanthoastrocytoma (PXA) has rarely been reported in combination with infiltrating glioma, historically interpreted as a "collision tumor." Isocitrate dehydrogenase 1 (IDH1) and BRAF V600E mutations are usually not concurrent. The former is typical of adult infiltrating gliomas, and the latter is identified in a variety of primary central nervous system neoplasms, including PXA, ganglioglioma, pilocytic astrocytoma, and rarely infiltrating gliomas. We report the case of a 56-year-old man presenting with seizures and headaches. Magnetic resonance imaging revealed a large right temporal lobe mass with low T1 and high T2/FLAIR signal and a discrete contrast-enhancing focus. Histologically, the tumor showed 2 distinct components: an infiltrating astrocytoma harboring 5 mitoses/10 high-power fields and a relatively circumscribed focus, resembling PXA with, at most, 2 mitoses/10 high-power fields. No microvascular proliferation or necrosis was present in either component. The infiltrating astrocytoma component contained numerous axons, whereas the PXA-like component had sparse axons, as demonstrated by the neurofilament immunostain. Both components were positive for the mutant IDH1 R132H and showed loss of ATRX expression, whereas BRAF V600E was restricted to the PXA-like component. On sequencing of the 2 components separately after microdissection, both showed identical IDH1 R132H and TP53 R273C point mutations, whereas the BRAF V600E mutation was limited to the PXA-like component. These findings are consistent with clonal expansion of a morphologically distinct focus, harboring a private BRAF V600E mutation within an IDH1-mutant glioma. Intratumoral heterogeneity and clonal evolution, as seems to have occurred here, suggest reevaluation of "collision tumors" as a concept.

血清アクアポリン4抗体陽性で、延髄から上位頸髄に脱髄病変を有する50代男性のNMOSDの1剖検例を経験した。比較的急激に症状が進行し、8ヵ月の全経過中に視神経炎の所見を呈さなかった。組織像は脱髄所見およびアクアポリン4の染色性が低下していたことに加え、GFAP染色性の低下を示すアストロサイト傷害像を認め、NMOSDとして矛盾しないものであった。視神経障害がなく脊髄障害のみを呈する症例は比較的稀であり、診断に苦慮することがある。病理所見に若干の文献的考察を加えて報告する。(著者抄録)

Forkhead box P1 protein is a transcription factor involved in cell signaling and regulation of gene expression and is essential for B-cell development. Forkhead box P1 overexpression has been associated with a worsened prognosis in some B-cell lymphomas. However, little is known about the clinicopathologic significance of forkhead box P1 in T-cell malignancies. In this study, immunohistochemistry for forkhead box P1 was performed in peripheral T-cell lymphoma, not otherwise specified, cases (n = 41), which were then divided into lower (n = 15) and higher (n = 26) forkhead box P1 expressers. Results of real-time quantitative reverse transcriptase polymerase chain reaction for forkhead box P1 messenger RNA supported the data on immunohistochemical forkhead box P1 expression. Forkhead box P1 overexpression in lymphoma cells was inversely associated with proliferation activity as evaluated by Ki-67 expression. Double immunostain for forkhead box P1 and a T-cell marker in normal lymph nodes showed forkhead box P1 signals in many of nonneoplastic T cells. Prognostic analysis showed that forkhead box P1 overexpression was associated with an improved overall survival of the patients with peripheral T-cell lymphoma, not otherwise specified, and was independent of the International Prognostic Index in multivariate analysis. Forkhead box P1 overexpression may be associated with less activated phenotype of the tumors and with a better prognosis in patients with peripheral T-cell lymphoma, not otherwise specified. The clinicopathologic significance of forkhead box P1 overexpression in peripheral T-cell lymphoma, not otherwise specified, may be different from that in B-cell lymphomas.