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Purpose Assessment of the risk of recurrence is essential to determine the therapeutic strategy of meningioma treatment. Many relapsing or aggressive meningiomas show elevated mitotic and/or Ki67 indices, reflecting cell cycle deregulation. As CDKN2A is a key tumor suppressor gene involved in cell cycle control, we investigated whether CDKN2A alterations may be involved in tumor recurrence. Methods We carried out a comparative analysis of 17 recurrent and 13 non-recurrent meningiomas. CDKN2A  single nucleotide variations (SNVs), deletions, methylation status of the promotor, and p16 expression were investigated. Results were correlated with the recurrent or non-recurrent status and clinicopathological data. Results We identified a CDKN2A SNV (NM_000077, exon2, c.G442A, p.Ala148Thr) in five meningiomas that was significantly associated with recurrence ( p  = 0.03). This mutation, confirmed by Sanger sequencing and referenced in the COSMIC database in various cancers, has not been reported in meningioma. The presence of one of the three following CDKN2A alterations—p.(Ala148Thr) mutation, whole homozygous or heterozygous gene loss, or promotor methylation > 8%—was observed in 13 of the 17 relapsing meningiomas and was strongly associated with recurrence ( p  < 0.0001) and a Ki67 labeling index > 7% ( p  = 0.004). Conclusion We report an undescribed p.(Ala148Thr) CDKN2A mutation in meningioma that was only present in relapsing tumors. In our series, CDKN2A gene alterations were only found in recurrent meningiomas. However, our results need to be evaluated on a larger series to ensure that these CDKN2A alterations can be used as biomarkers of recurrence in meningioma.

Background Radioresistant glioblastoma stem cells (GSCs) contribute to tumor recurrence and identification of the molecular targets involved in radioresistance mechanisms is likely to enhance therapeutic efficacy. This study analyzed the DNA damage response following ionizing radiation (IR) in 10 GSC lines derived from patients. Methods DNA damage was quantified by Comet assay and DNA repair effectors were assessed by Low Density Array. The effect of RAD51 inhibitor, RI-1, was evaluated by comet and annexin V assays. Results While all GSC lines displayed efficient DNA repair machinery following ionizing radiation, our results demonstrated heterogeneous responses within two distinct groups showing different intrinsic radioresistance, up to 4Gy for group 1 and up to 8Gy for group 2. Radioresistant cell group 2 (comprising 5 out of 10 GSCs) showed significantly higher RAD51 expression after IR. In these cells, inhibition of RAD51 prevented DNA repair up to 180 min after IR and induced apoptosis. In addition, RAD51 protein expression in glioblastoma seems to be associated with poor progression-free survival. Conclusion These results underscore the importance of RAD51 in radioresistance of GSCs. RAD51 inhibition could be a therapeutic strategy helping to treat a significant number of glioblastoma, in combination with radiotherapy.

Abstract Infiltration of the peripheral nervous system (PNS) by lymphoma, called neurolymphomatosis, is a rare condition among the spectrum of lymphoma-associated neuropathies; its diagnosis is challenging. Cerebrospinal fluid (CSF) analysis is of great value, but nerve biopsy (NB) may be necessary to prove invasion by malignant cells. Clonality polymerase chain reaction (PCR)-based analysis is a validated method in the diagnosis of hematological malignancies, but there are very little data on its diagnostic yield on NB samples. We explored the contribution of NB with clonality analysis to the diagnosis of neurolymphomatosis in 15 patients with negative CSF analysis. Moreover, we assessed the performance of clonality testing in a case-control manner, using patients with inflammatory infiltrates on NB as controls. Neurolymphomatosis was the first manifestation of lymphoma in 60% and could be diagnosed on routine histology alone in 40%. Clonality testing showed monoclonal rearrangement in 86.7% and was unsuccessful in 8.1%. Performance of clonality testing was as follows: 92.9% positive predictive value, 90% negative predictive value, 86.7% sensitivity, 94.7% specificity. This study confirms the diagnostic challenge of neurolymphomatosis, the usefulness of NB in patients with negative CSF analysis, and highlights the high yield of PCR-based clonality testing to assess the malignant nature of PNS lymphoid infiltrates.

Abstract In hereditary neuropathies, next-generation sequencing techniques are producing a vast number of candidate gene mutations that need to be verified or excluded by careful genotype-phenotype correlation analysis. In most cases, clinical acumen is still important but needs to be combined with data from nerve conduction studies and, in some cases, from nerve biopsy examinations. Indeed, characteristic clinical, electrophysiological, and sometimes pathological features may be suggestive of a particular subtype of Charcot-Marie-Tooth (CMT) disease. Microscopical (mainly ultrastructural) human nerve biopsy patterns may be related to CMT diseases and gene defects. Even today, it is important to recognize these characteristic lesions in the context of a chronic idiopathic neuropathy as they may help search for or reveal a sporadic form of CMT. In practice, these different types of lesions are often linked to the known function of the mutated genes. Only a few patients diagnosed or suspected as having a CMT disease need a nerve biopsy that can help find or confirm the causative gene mutation. The indication for this procedure should be based on a case-by-case discussion.

The neuroepithelial tumor, PATZ1- fused (NET- PATZ1 ), has been recently isolated as a distinct methylation class by DNA-methylation profiling and is characterized by recurrent PATZ1 fusions, in association with the EWSR1 or MN1 genes and a chromosome 22 chromothripsis. The clinical phenotype is mainly pediatric and features circumscribed supratentorial tumors. However, the histopathology is vastly heterogeneous (glial, glioneuronal, sarcomatous, multiphenotypic) and a cell of origin has not yet been identified, explaining the previsionary imprecise terminology of “NET”. Moreover, extra-central nervous system (CNS) sarcomas also harboring the EWSR1::PATZ1 fusion have been reported and added to the current World Health Organization (WHO) Classification of Soft Tissue and Bone Tumors, in the chapter on undifferentiated small round cell sarcomas. However, their relationship to their CNS counterparts has not yet been studied. Herein, we analyzed a cohort of twelve CNS tumors with PATZ1 fusions in terms of clinical presentation, radiology, histopathology, immunohistochemistry, ultrastructure and DNA-methylation profiling and compared them to five extra-CNS sarcomas- PATZ1 . Based on the reported GATA2 overexpression in NET- PATZ1 , we also studied the potential interest of GATA2 immunoexpression as a diagnostic tool. We confirmed their distinct molecular characteristics and clinical phenotype but evidenced a morphological intratumoral heterogeneity with three recurrent morphological patterns (oligodendroglial-like, pleomorphic xanthoastrocytoma-like and spindle cells). Despite the unusual spindle and proliferative component in a CD34 + glioneuronal tumor (using electronic microscopy), these tumors present a favorable prognosis. Their histopathological features were all clearly distinct from their soft tissue counterparts. GATA2 immunostaining is highly specific for CNS tumors PATZ1- fused, but its sensitivity is perfectible and further studies are needed to confirm its use as a diagnostic tool. To conclude, our work highlights that CNS tumors, PATZ1- fused seem to represent a novel pediatric glioneuronal tumor type exhibiting a polymorphous morphology and provides new support for its addition as a provisional emerging pediatric circumscribed glioneuronal tumor type, low grade.

CANVAS, a rare disorder responsible for late-onset ataxia of autosomal recessive inheritance, can be misdiagnosed. We investigated a series of eight patients with sensory neuropathy and/or an unexplained cough, who appeared to suffer from CANVAS, and we emphasized the clinical clues for early diagnosis. Investigations included clinical and routine laboratory analyses, skin biopsy, nerve biopsy and molecular genetics. The eight patients had clinical and/or laboratory evidence of sensory neuronopathy. All but one had neuropathic pain that had started in an asymmetric fashion in two patients. A chronic cough was a prominent feature in our eight patients and had started years before neuropathic symptoms in all but one. The course of the disease was slow, and ataxia remained mild in all. Five patients were initially thought to have immune-mediated sensory neuronopathy and received immunotherapy. Skin biopsies showed a near complete and non-length-dependent loss of intraepidermal nerve fibers. Moreover, nerve biopsy findings suggested a prominent involvement of small myelinated and unmyelinated fibers. The burden of CANVAS extends far beyond cerebellar ataxia and vestibular manifestations. Indeed, our study shows that a chronic cough and neuropathic pain may represent a major source of impairment in these patients and should not be overlooked to allow an early diagnosis and prevent unnecessary immunotherapy.

Alzheimer’s disease (AD) is the leading cause of dementia in aging individuals. Yet, the pathophysiological processes involved in AD onset and progression are still poorly understood. Among numerous strategies, a comprehensive overview of gene expression alterations in the diseased brain could contribute for a better understanding of the AD pathology. In this work, we probed the differential expression of genes in different brain regions of healthy and AD adult subjects using data from three large transcriptomic studies: Mayo Clinic, Mount Sinai Brain Bank (MSBB), and ROSMAP. Using a combination of differential expression of gene and isoform switch analyses, we provide a detailed landscape of gene expression alterations in the temporal and frontal lobes, harboring brain areas affected at early and late stages of the AD pathology, respectively. Next, we took advantage of an indirect approach to assign the complex gene expression changes revealed in bulk RNAseq to individual cell types/subtypes of the adult brain. This strategy allowed us to identify previously overlooked gene expression changes in the brain of AD patients. Among these alterations, we show isoform switches in the AD causal gene amyloid-beta precursor protein (APP) and the risk gene bridging integrator 1 (BIN1), which could have important functional consequences in neuronal cells. Altogether, our work proposes a novel integrative strategy to analyze RNAseq data in AD and other neurodegenerative diseases based on both gene/transcript expression and regional/cell-type specificities.

Immune-mediated neuromuscular disorders include pathologies of the peripheral nervous system, neuromuscular junction, and muscles. If overlap syndromes (or the association of almost two autoimmune disorders) are recognized, the simultaneous occurrence of several autoimmune neuromuscular disorders is rare. We describe two patients presenting the simultaneous occurrence of inflammatory neuropathy, myositis, and myasthenia gravis (with positive acetylcholine receptor antibodies). For each patient, we carried out a pathological analysis (nerve and muscle) and an electrophysiological study (and follow-up). To our knowledge, this is the first description of such a triple immune-mediated neuromuscular syndrome. We compared our observations with a few other cases of simultaneous diagnosis of two inflammatory neuromuscular disorders.