Germline MUTYH mutations and high-grade gliomas: Novel evidence for a potential association.

There is growing body of evidence supporting the role of germline mutations in the pathogenesis of pediatric central nervous system (CNS) tumors, and the widespread use of next-generation sequencing (NGS) panels facilitates their detection. Variants of the MUTYH gene are increasingly recognized as suspected germline background of various extraintestinal malignancies, besides their well-characterized role in the polyposis syndrome associated with biallelic mutations. Using a multigene NGS panel (Illumina TruSight Oncology 500), we detected one H3 G34V- and one H3 K27M-mutant pediatric high-grade diffuse glioma, in association with c.1178G>A (p.G393D) and c.916C>T (p.R306C) MUTYH variants, respectively. Both MUTYH mutations were germline, heterozygous and inherited, according to the subsequent genetic testing of the patients and their first-degree relatives. In the H3 K27M-mutant glioma, amplifications affecting the 4q12 region were also detected, in association with KDR-PDGFRA, KIT-PDGFRA, and KDR-CHIC2 fusions, previously unreported in this entity. Among 47 other CNS tumors of various histological types tested with the same NGS panel in our institution, only one adult glioblastoma harbored MUTYH mutation. Together with a single previous report, our data raises the possibility of an association between germline MUTYH mutations and CNS malignancies, particularly in pediatric histone H3-mutant gliomas.

Targeting cellular metabolism using rapamycin and/or doxycycline enhances anti-tumour effects in human glioma cells.

BACKGROUND: Glioma is the most common highly aggressive, primary adult brain tumour. Clinical data show that therapeutic approaches cannot reach the expectations in patients, thus gliomas are mainly incurable diseases. Tumour cells can adapt rapidly to alterations during therapeutic treatments related to their metabolic rewiring and profound heterogeneity in tissue environment. Renewed interests aim to develop effective treatments targeting angiogenesis, kinase activity and/or cellular metabolism. mTOR (mammalian target of rapamycin), whose hyper-activation is characteristic for many tumours, promotes metabolic alterations, macromolecule biosynthesis, cellular growth and survival. Unfortunately, mTOR inhibitors with their lower toxicity have not resulted in appreciable survival benefit. Analysing mTOR inhibitor sensitivity, other metabolism targeting treatments and their combinations could help to find potential agents and biomarkers for therapeutic development in glioma patients. METHODS: In vitro proliferation assays, protein expression and metabolite concentration analyses were used to study the effects of mTOR inhibitors, other metabolic treatments and their combinations in glioma cell lines. Furthermore, mTOR activity and cellular metabolism related protein expression patterns were also investigated by immunohistochemistry in human biopsies. Temozolomide and/or rapamycin treatments altered the expressions of enzymes related to lipid synthesis, glycolysis and mitochondrial functions as consequences of metabolic adaptation; therefore, other anti-metabolic drugs (chloroquine, etomoxir, doxycycline) were combined in vitro. RESULTS: Our results suggest that co-targeting metabolic pathways had tumour cell dependent additive/synergistic effects related to mTOR and metabolic protein expression patterns cell line dependently. Drug combinations, especially rapamycin + doxycycline may have promising anti-tumour effect in gliomas. Additionally, our immunohistochemistry results suggest that metabolic and mTOR activity alterations are not related to the recent glioma classification, and these protein expression profiles show individual differences in patients' materials. CONCLUSIONS: Based on these, combinations of different new/old drugs targeting cellular metabolism could be promising to inhibit high adaptation capacity of tumour cells depending on their metabolic shifts. Relating to this, such a development of current therapy needs to find special biomarkers to characterise metabolic heterogeneity of gliomas.

EZH2 is upregulated in the proliferation centers of CLL/SLL lymph nodes.

Lymph node involvement of chronic lymphocytic leukaemia/small lymphocytic lymphoma (CLL/SLL) is characterised by the diffuse infiltration of small neoplastic lymphocytes, which is accompanied by the presence of proliferation centres (PCs) comprising prolymphocytes and paraimmunoblasts. There is increasing evidence of accumulation of various molecular alterations in the tumour cells of PCs, which may explain why extended PCs are related to a less favourable prognosis. To further characterize PCs, we compared the expression level of EZH2 protein, the overexpression of which has recently been recognized as poor prognostic factor in CLL/SLL, in the PCs and the intervening small cell areas in lymph nodes of 15 patients with CLL/SLL. We also investigated the mutational profile of EZH2 and the expression of its upstream regulators c-Myc, E2F1, pRB and miR-26a. Our results showed a significantly increased expression of EZH2 in the PCs. No EZH2 mutations were detected, however, overexpression of c-Myc, E2F1 and pRb proteins as well as reduced expression of the tumor suppressor miR-26a were demonstrated in the PCs. In summary our findings indicate that EZH2 pathway is significantly upregulated in the PCs of CLL/SLL lymph nodes, providing further evidence for the distinguished biological features of the PCs.

[Pathogenesis and genetic landscape of acute myeloid leukemia]. / Az akut mieloid leukémia genetikai és patológiai sajátosságai.

The recent advances in the field of molecular biology have enabled a more comprehensive genomic analysis in myeloid malignancies. The studies have unveiled recurrent somatic mutations in several genes illuminating the clinical heterogeneity of these diseases. In this review, we discuss the pathogenesis of de novo and secondary acute myeloid leukemia (AML) in view of recent findings. Mutational analysis of several genes are already included in the everyday diagnostic procedure of AML. The identification of these mutations enables improvements in risk-stratification strategies and provides new potential targets for treatment of AML.

[The genetic landscape of chronic lymphocytic leukemia]. / A krónikus limfocitás leukémia genetikai háttere az újgenerációs szekvenálás korszakában.

Chronic lymphocytic leukemia (CLL) is the most frequent mature B-cell non-Hodgkin's lymphoma in the Western countries. The recent next-generation sequencing (NGS) studies lead to an exponential increase in our knowledge of the pathogenesis and progression of CLL. Whole genome and exome sequencing studies revealed a remarkable inter- and intra-patient genetic heterogeneity with a significant therapy-induced clonal evolution in the majority of the patients. Driver mutations were identified in components of various signalling pathways and cellular processes with notable prognostic and therapeutic relevance. Interestingly, these studies revealed only a few genes mutated in at least 15-20% of the patients with a larger number of genes mutated in a smaller proportion of patients. This improved understanding of the genomic landscape of CLL has opened new avenues for a more precise patient stratification and rational application of novel, more effective targeted therapies.

[Novelties in the diagnostics and therapy of hairy cell leukemia]. / Új utak a hajas sejtes leukémia és a rokon kórképek diagnosztikájában és kezelésében.

Differential diagnosis of hairy cell leukemia (HCL) and related disorders (hairy cell leukemia variant and splenic marginal zone lymphoma) is of utmost importance since the treatment and prognosis of these lymphomas differ. Since 2011 diagnosis of hairy cell leukemia has been easier because of discovery of the disease defining somatic mutation BRAF V600E mutation, which has been also known as driver mutation in malignant melanoma. The presence of this mutation enabled targeted molecular therapy in HCL as well. As first line therapy purine nucleoside analogues are the gold standard, but refractory/relapsed patient are candidates for targeted BRAF-inhibitor therapy. This manuscript serves as guidance in making diagnosis and standard treatment of HCL, and summarizes newest data about molecular therapy, including our single center experience collected from 75 patients.

EZH2 mutations are frequent and represent an early event in follicular lymphoma.

Gain of function mutations in the H3K27 methyltransferase EZH2 represent a promising therapeutic target in germinal center lymphomas. In this study, we assessed the frequency and distribution of EZH2 mutations in a large cohort of patients with follicular lymphoma (FL) (n = 366) and performed a longitudinal analysis of mutation during the disease progression from FL to transformed FL (tFL) (n = 33). Mutations were detected at 3 recurrent mutation hot spots (Y646, A682, and A692) in 27% of FL cases with variant allele frequencies (VAF) ranging from 2% to 61%. By comparing VAF of EZH2 with other mutation targets (CREBBP, MLL2, TNFRSF14, and MEF2B), we were able to distinguish patients harboring clonal EZH2 mutation from rarer cases with subclonal mutations. Overall, the high incidence of EZH2 mutations in FL and their stability during disease progression makes FL an appropriate disease to evaluate EZH2 targeted therapy.

[Classical pathology and basic concepts of the current WHO classification (5th edition) of central nervous system tumors]. / A központi idegrendszeri tumorok klasszikus patológiája és a jelenlegi WHO-klasszifikáció (5. kiadás) alapjai.

Considerable changes were introduced into the 5th World Health Organization (WHO) classification of central nervous system (CNS) tumors, published in 2021, including new entities, a clearer classification of previous categories, correlating better with clinical behavior and changes in nomenclature. The number of definitions based on molecular features in addition to histopathology continued to increase. Here, we highlight the basic principles of the 5th CNS WHO classification and discuss glial, glioneuronal, neuronal, choroid plexus, embryonal and pineal tumors, as well as meningiomas in more details. We pay special attention to new entities as well as altered criteria and designations. Our primary goal is to present the "classical" pathological aspects, but the inseparable molecular pathological features are also briefly discussed, to the absolutely necessary extent for comprehension. We aim to provide a guideline to understand the modern classification of CNS tumors for practitioners of neuro-oncology and neuropathology.

[Childhood brain tumors: diagnosis and therapy - comprehensive genomic profiling]. / Gyermekkori agydaganatok: diagnózis és terápia ­ komprehenzív genomikai profilozás.

With the advancement of molecular oncology, numerous new opportunities are available for the effective and efficient treatment of patients diagnosed with childhood brain tumors. This includes gene panel analysis aiding personalized treatment used in clinical trials, and the application of targeted therapy independent of tissue type (tumor agnostic therapy). Most personalized therapies inhibit certain kinases. In our review, we present the modern pathological diagnosis of childhood brain tumors, as well as the complex intracellular regulation of signal transduction pathways important from the point of view of clinical practice, and we describe their further targets defined on the basis of pharmacological characteristics of the pathway, based on international and our own results. Despite common mutations affecting kinases, personalized therapy is not available in many types of tumors. Through the example of childhood brain tumors, we demonstrate the expected future therapeutic significance of tyrosine kinases.

Therapy Defining at Initial Diagnosis of Primary Brain Tumor-The Role of 18F-FET PET/CT and MRI.

Primary malignant brain tumors are heterogeneous and infrequent neoplasms. Their classification, therapeutic regimen and prognosis have undergone significant development requiring the innovation of an imaging diagnostic. The performance of enhanced magnetic resonance imaging depends on blood-brain barrier function. Several studies have demonstrated the advantages of static and dynamic amino acid PET/CT providing accurate metabolic status in the neurooncological setting. The aim of our single-center retrospective study was to test the primary diagnostic role of amino acid PET/CT compared to enhanced MRI. Emphasis was placed on cases prior to intervention, therefore, a certain natural bias was inevitable. In our analysis for newly found brain tumors 18F-FET PET/CT outperformed contrast MRI and PWI in terms of sensitivity and negative predictive value (100% vs. 52.9% and 36.36%; 100% vs. 38.46% and 41.67%), in terms of positive predictive value their performance was roughly the same (84.21 % vs. 90% and 100%), whereas regarding specificity contrast MRI and PWI were superior (40% vs. 83.33% and 100%). Based on these results the superiority of 18F-FET PET/CT seems to present incremental value during the initial diagnosis. In the case of non-enhancing tumors, it should always be suggested as a therapy-determining test.

Novel, clinically relevant genomic patterns identified by comprehensive genomic profiling in ATRX-deficient IDH-wildtype adult high-grade gliomas.

Glioblastomas are the most common IDH-wildtype adult high-grade gliomas, frequently harboring mutations in the TERT gene promoter (pTERT) and utilizing the subsequent telomerase overexpression for telomere length maintenance. However, some rare cases show loss of ATRX and use alternative mechanisms of telomere lengthening. In this study, we performed the first complex genomic analysis specifically concentrating on the latter subgroup. Comprehensive genomic profiling of 12 ATRX-deficient and 13 ATRX-intact IDH-wildtype adult high-grade gliomas revealed that ATRX and pTERT mutations are mutually exclusive. DNMT3A alterations were confined to ATRX-deficient, while PTEN mutations to ATRX-intact cases. RAS-MAPK pathway alterations, including NF1 mutations, were more characteristic in the ATRX-deficient group. Variants of genes related to homologous recombination repair showed different patterns of affected genes. Two ATRX-deficient tumors with high tumor mutational burden and mismatch repair deficiency were found. One of these contained a novel fusion involving the NTRK2 and LRRFIP2 genes, while the other showed loss of MSH2 and MSH6 without genetic alterations in the encoding genes suggesting an epigenetic background. Genetic characteristics of ATRX-deficient IDH-wildtype adult high-grade gliomas suggest that these tumors are particularly intriguing targets of potential future therapeutic interventions including immunotherapies combined with MAPK pathway inhibition and DNA repair inhibitors.

Impact of the reactive microenvironment on the bone marrow involvement of follicular lymphoma.

AIMS: Follicular lymphoma (FL) is associated with bone marrow (BM) involvement in approximately 40-70% of cases. Previous studies have suggested that the immune-microenvironment of FL plays an important role in the clinical behaviour of the disease. To investigate the role of the microenvironment in BM involvement of FL, we performed immunophenotypical analysis of the reactive cell populations in lymph nodes (LN) and corresponding BM of 35 patients with FL. Microenvironment patterns of BM infiltrates were compared to the corresponding features of the LN in cases with BM manifestation, and the LN microenvironment was compared in FL cases with and without BM involvement. METHODS AND RESULTS: Automated image-segmentation-based quantitation was performed in whole digital slides of tissue microarrays of formalin-fixed paraffin-embedded tissue biopsies. We found significantly more CD8(+) T lymphocytes, forkhead box protein 3 (FoxP3)(+) T lymphocytes and CD68(+) macrophages and fewer PD1(+) T lymphocytes in the BM than in the matching LN samples. Furthermore, we observed significantly fewer CD8(+) T cells and CD68(+) macrophages in cases involving the BM compared to those localized only to the LNs. CONCLUSIONS: Our study showed that different tumour cell growth in the LN and BM may generate different microenvironments, and suggested that the reduced number of cytotoxic T lymphocytes and macrophages in LNs favours BM infiltration of neoplastic cells in FL.

Immunohistochemical Detection of the Presence of Vitamin D Receptor in Childhood Solid Tumors.

Background: Our previous work has shown a correlation between lower vitamin D levels in children with cancer and adverse prognosis. It suggests that supplying vitamin D is reasonable. VDR expression in childhood solid tumors has been linked to tumor characteristics and patient survival in only a few studies. Methods: For this study, 177 children with solid tumors were selected whose biopsies and tumor tissue formalin-fixed, paraffin-embedded tissue blocks were available for immunohistochemical analysis at Semmelweis University, Budapest (Hungary). Results: We found that non-significant VDR expression was associated with a significantly less favorable prognosis (p = 0.0061) in the examined childhood solid tumors. There was a clinically significant association; non-significant VDR expression had more than 14-fold odds of an unfavorable prognosis (OR = 14.74). The rate of VDR expression differed significantly between tumor types (p < 0.0001). Conclusion: In conclusion, VDR expression measured by IHC staining is inversely associated with aggressive characteristics in different childhood cancers. The downregulation of VDR expression in more aggressive childhood cancers suggests that functional vitamin D activity may slow or block cancer progression.

Distinct miRNA Expression Signatures of Primary and Secondary Central Nervous System Lymphomas.

Central nervous system (CNS) lymphoma is a rare and aggressive non-Hodgkin lymphoma that might arise in the CNS (primary CNS lymphoma) or disseminates from a systemic lymphoma to the CNS (secondary CNS lymphoma). Dysregulated expression of miRNAs is associated with various pathologic processes, and miRNA expression patterns may have diagnostic, prognostic, and therapeutic implications. However, miRNA expression is understudied in CNS lymphomas. We performed expression analysis of 798 miRNAs in 73 CNS lymphoma samples using the NanoString platform, followed by an analysis to identify potential diagnostic biomarkers characterizing subgroups and to examine differences based on their primary and secondary nature, molecular subtype, mutational patterns, and survival. Thirty-one differentially expressed miRNAs were identified between primary and secondary groups. In addition, 7 more miRNAs were identified associated with a molecular subtype and 25 associated with mutation status. Using unsupervised clustering methods, a small but distinct primary CNS lymphoma subgroup, with characteristically different expression patterns compared with the rest of the cases was defined. Finally, differentially regulated pathways were identified in the above comparisons and the utility of miRNA expression patterns in predicting survival was assessed. Our study identifies a novel CNS lymphoma subgroup defined by distinct miRNAs, proves the importance of specific miRNAs and pathways in the pathogenesis of CNS lymphomas, and provides the basis for future research in defining potential biomarkers.

Epidermal growth factor receptor signalling contributes to osteoblastic stromal cell proliferation, osteoclastogenesis and disease progression in giant cell tumour of bone.

AIMS: Epidermal growth factor receptor (EGFR) is implicated in bone remodelling. The aim was to determine whether EGFR protein expression contributes to the aggressiveness and recurrence potential of giant cell tumour of bone (GCTB), an osteolytic primary bone tumour that can exhibit markedly variable clinical behaviour. METHODS AND RESULTS: Immunohistochemical analysis on tissue microarrays (TMA) of 231 primary, 97 recurrent, 17 metastatic and 26 malignant GCTBs was performed using TMA analysis software and whole digital slides allowing validated scoring. EGFR expression was restricted to neoplastic stromal cells and was significantly more frequent in recurrent (71 of 92; 77%) than in non-recurrent GCTBs (86 of 162; 53%) (P = 0.002); and in clinicoradiologically aggressive (31 of 43; 72%) than latent (27 of 54; 50%) cases (P = 0.034). Detecting phosphotyrosine epitopes pY1068 and -pY1173 indicated active EGFR signalling, and finding EGFR ligands EGF and transforming growth factor-α restricted to cells of the monocytic lineage suggested paracrine EGFR activation in stromal cells. In functional studies EGF supported proliferation of GCTB stromal cells, and the addition of EGF and macrophage-colony stimulating factor promoted osteoclastogenesis. CONCLUSION: In GCTB, EGFR signalling in neoplastic stromal cells may contribute to disease progression through promoting stromal cell proliferation and osteoclastogenesis.

Inhibition of Metabolic Shift can Decrease Therapy Resistance in Human High-Grade Glioma Cells.

The high-grade brain malignancy, glioblastoma multiforme (GBM), is one of the most aggressive tumours in central nervous system. The developing resistance against recent therapies and the recurrence rate of GBMs are extremely high. In spite several new ongoing trials, GBM therapies could not significantly increase the survival rate of the patients as significantly. The presence of inter- and intra-tumoral heterogeneity of GBMs arise the problem to find both the pre-existing potential resistant clones and the cellular processes which promote the adaptation mechanisms such as multidrug resistance, stem cell-ness or metabolic alterations, etc. In our work, the in situ metabolic heterogeneity of high-grade human glioblastoma cases were analysed by immunohistochemistry using tissue-microarray. The potential importance of the detected metabolic heterogeneity was tested in three glioma cell lines (grade III-IV) using protein expression analyses (Western blot and WES Simple) and therapeutic drug (temozolomide), metabolic inhibitor treatments (including glutaminase inhibitor) to compare the effects of rapamycin (RAPA) and glutaminase inhibitor combinations in vitro (Alamar Blue and SRB tests). The importance of individual differences and metabolic alterations were observed in mono-therapeutic failures, especially the enhanced Rictor expressions after different mono-treatments in correlation to lower sensitivity (temozolomide, doxycycline, etomoxir, BPTES). RAPA combinations with other metabolic inhibitors were the best strategies except for RAPA+glutaminase inhibitor. These observations underline the importance of multi-targeting metabolic pathways. Finally, our data suggest that the detected metabolic heterogeneity (the high mTORC2 complex activity, enhanced expression of Rictor, p-Akt, p-S6, CPT1A, and LDHA enzymes in glioma cases) and the microenvironmental or treatment induced metabolic shift can be potential targets in combination therapy. Therefore, it should be considered to map tissue heterogeneity and alterations with several cellular metabolism markers in biopsy materials after applying recently available or new treatments.

Demethylation Status of Somatic DNA Extracted From Pituitary Neuroendocrine Tumors Indicates Proliferative Behavior.

BACKGROUND: Cytosine intermediaries 5-methylcytosine (5mC) and 5-hydroxymethylcytosine (5hmC), epigenetic hallmarks, have never been investigated in pituitary neuroendocrine tumors (PitNET). OBJECTIVE: To examine methylation-demethylation status of global deoxyribonucleic acid (DNA) in PitNET tissues and to assess its correlation with clinical and biological parameters. MATERIALS AND METHODS: Altogether, 57 PitNET and 25 corresponding plasma samples were collected. 5mC and 5hmC were investigated using liquid chromatography-tandem mass spectrometry. Expression of DNA methyltransferase 1 (DNMT1); tet methylcytosine dioxygenase 1 through 3 (TET1-3); and ubiquitin-like, containing PHD and RING finger domains 1 and 2 (UHRF1-2) were measured by reverse transcription-polymerase chain reaction. Levels of 5hmC and UHRF1-2 were explored by immunohistochemistry. Effect of demethylating agent decitabine was tested on pituitary cell lines. RESULTS: 5hmC/5mC ratio was higher in less differentiated PitNET samples. A negative correlation between Ki-67 proliferation index and 5hmC, 5hmC to 5mC ratio were revealed. Higher 5mC was observed in SF-1 + gonadotroph adenomas with a higher Ki-67 index. Expressions of TET2 and TET3 were significantly higher in adenomas with higher proliferation rate. UHRF1 showed gradually increased expression in higher proliferative adenoma samples, and a significant positive correlation was detected between UHRF2 expression and 5hmC level. Decitabine treatment significantly decreased 5mC and increased 5hmC levels in both cell lines, accompanied with decreased cell viability and proliferation. CONCLUSION: The demethylation process negatively correlated with proliferation rate and the ratio of 5hmC to 5mC was higher in less differentiated adenomas. Therefore, epigenetic markers can be potential biomarkers for PitNET behavior. Altering the epigenome in adenoma cells by decitabine decreased proliferation, suggesting that this treatment might be a novel medical treatment for PitNET.

Molecular Subtypes and Genomic Profile of Primary Central Nervous System Lymphoma.

Primary central nervous system lymphomas (PCNSL) are aggressive non-Hodgkin lymphomas affecting the central nervous system (CNS). Although immunophenotyping studies suggested an uniform activated B-cell (ABC) origin, more recently a spectrum of ABC and germinal center B-cell (GC) cases has been proposed, with the molecular subtypes of PCNSL still being a matter of debate. With the emergence of novel therapies demonstrating different efficacy between the ABC and GC patient groups, precise assignment of molecular subtype is becoming indispensable. To determine the molecular subtype of 77 PCNSL and 17 secondary CNS lymphoma patients, we used the NanoString Lymphoma Subtyping Test (LST), a gene expression-based assay representing a more accurate technique of subtyping compared with standard immunohistochemical (IHC) algorithms. Mutational landscapes of 14 target genes were determined using ultra-deep next-generation sequencing. Using the LST-assay, a significantly lower proportion (80% vs 95%) of PCNSL cases displayed ABC phenotype compared with the IHC-based characterization. The most frequently mutated genes included MYD88, PIM1, and KMT2D. In summary, we successfully applied the LST-assay for molecular classification of PCNSL, reporting higher proportion of cases with GC phenotype compared with IHC analyses, leading to a more precise patient stratification potentially applicable in the diagnostic algorithm of PCNSL.

GABA, glutamine, glutamate oxidation and succinic semialdehyde dehydrogenase expression in human gliomas.

BACKGROUND: Bioenergetic characterisation of malignant tissues revealed that different tumour cells can catabolise multiple substrates as salvage pathways, in response to metabolic stress. Altered metabolism in gliomas has received a lot of attention, especially in relation to IDH mutations, and the associated oncometabolite D-2-hydroxyglutarate (2-HG) that impact on metabolism, epigenetics and redox status. Astrocytomas and oligodendrogliomas, collectively called diffuse gliomas, are derived from astrocytes and oligodendrocytes that are in metabolic symbiosis with neurons; astrocytes can catabolise neuron-derived glutamate and gamma-aminobutyric acid (GABA) for supporting and regulating neuronal functions. METHODS: Metabolic characteristics of human glioma cell models - including mitochondrial function, glycolytic pathway and energy substrate oxidation - in relation to IDH mutation status and after 2-HG incubation were studied to understand the Janus-faced role of IDH1 mutations in the progression of gliomas/astrocytomas. The metabolic and bioenergetic features were identified in glioma cells using wild-type and genetically engineered IDH1-mutant glioblastoma cell lines by metabolic analyses with Seahorse, protein expression studies and liquid chromatography-mass spectrometry. RESULTS: U251 glioma cells were characterised by high levels of glutamine, glutamate and GABA oxidation. Succinic semialdehyde dehydrogenase (SSADH) expression was correlated to GABA oxidation. GABA addition to glioma cells increased proliferation rates. Expression of mutated IDH1 and treatment with 2-HG reduced glutamine and GABA oxidation, diminished the pro-proliferative effect of GABA in SSADH expressing cells. SSADH protein overexpression was found in almost all studied human cases with no significant association between SSADH expression and clinicopathological parameters (e.g. IDH mutation). CONCLUSIONS: Our findings demonstrate that SSADH expression may participate in the oxidation and/or consumption of GABA in gliomas, furthermore, GABA oxidation capacity may contribute to proliferation and worse prognosis of gliomas. Moreover, IDH mutation and 2-HG production inhibit GABA oxidation in glioma cells. Based on these data, GABA oxidation and SSADH activity could be additional therapeutic targets in gliomas/glioblastomas.