The Biological Behavior of High-Grade Glioma in H3K27M Mutant Circumscribed Midline Gliomas

Purpose Due to the prognosis of circumscribed middle gliomas（CMGs）with H3K27M mutation is still unclear. This study explored the prognostic stratification of （CMGs） with H3K27M mutation.Methods: One hundred and sixty middle gliomas（MGs）were identified over 10 years. Immunohistochemistry was done for H3K27M, ATRX, IDH1, and P53, and Sanger sequencing performed for IDH and H3 genes. The clinicopathological characteristics were reviewed and survival analysis performed.Results: 1. H3K27M mutation was associated with a poor prognosis (p = 0.00017) for brainstem gliomas, but not for thalamic gliomas (p = 0.3). In the elder adults (≥40 years), there was no correlation between H3K27M mutation and the prognosis for MGs (p = 0.49).2. For H3K27M mutant MGs, there was no difference in prognosis between diffuse midline gliomas (DMGs) and CMGs (p = 0.211), also between the CNS WHO grades.3. The prognosis of H3K27M mutant CMGs of CNS WHO grade 1 was worse than that of H3K27M wild-type CMGs (p = 0.0024), even worse than of DMGs without H3K27M mutation of CNS WHO grade 2(p = 0.0066). There was no significant difference in prognosis from DMGs with histological grades CNS WHO grade 3 and 4 (p = 0.46).Conclusions: The weight value of H3K27M affecting prognosis is affected by location and age. CMGs with H3K27M mutation have biological behavior similar to high-grade gliomas. It is recommended that Treatment management was referenced to high-grade glioma for CMGs with H3K27 mutation.

PATH-19. TERT PROMOTER MUTATION, NOT H3K27M MUTATION IS A PROGNOSTIC FACTOR FOR ADULT THALAMIC GLIOMAS

Purpose Thalamic diffuse glioma is classified as WHO grade 4 as Diffuse midline glioma, H3K27M mutation if H3K27M mutation was found regardless of its histological findings, but the significance of H3K27M mutation is not clear compared with pediatric cases. We aimed to find genetic prognostic factors in adult thalamic diffuse gliomas. METHODS Pathological diagnosis, genetic abnormalities, and clinical course of adult newly diagnosed thalamic gliomas diagnosed and treated at our institution from July 2007 to March 2020 were retrospectively analyzed. RESULTS The number of cases was 41 (24 males, 17 females), median age was 47 years (20-75 years). Tumor localization was 20 cases on the left, 14 cases on the right, and 7 cases on both sides. The pathological diagnosis was GBM 15 cases, DMG 15 cases, AA-IDH WT 7 cases, DA-IDH WT 4 cases, all of which were IDH wild type, and none of them had IDH mutation and 1p/19q co-deletion. H3K27M mutations were found in 15 cases and TERT promoter mutations were found in 12 cases, both of which were completely mutually exclusive. Tumor resection and biopsy was performed in 33 and 8 cases, respectively, and the median removal rate was 95% for those who underwent tumor resection. The median PFS and OS of all cases were 14.3 months and 38 months, respectively, and the median OS by pathological diagnosis was GBM 12.4 months, DMG 47.4 months, AA-IDH WT 37.3 months, DA-IDH WT not reached. The median OS in the H3K27M mutant group (47.4 months) was significantly better (p=0.02) than that in the TERT promoter mutation group (13.5 months). CONCLUSION There was no IDH mutation in adult thalamic gliomas, the H3K27M mutation and the TERT promoter mutation were mutually exclusive. The H3K27M mutation was not a prognostic factor, but the TERT promoter mutation was the strongest prognostic factor.

RADT-09. ROLE OF RADIOTHERAPY IN MANAGEMENT OF PRIMARY SPINAL HIGH GRADE GLIOMA: A SINGLE INSTITUTION RETROSPECTIVE ANALYSIS

BACKGROUND Primary spinal high-grade gliomas(S-HGG) are rare, aggressive tumors and radiation therapy(RT) plays a dominant role in the management given their infiltrative nature. We conducted a single-institution retrospective review to study the clinicopathological features and management of S-HGGs. METHODS Patients with biopsy-proven S-HGG who received RT from 2001-2020 were analyzed for patient, tumor, and treatment characteristics. Kaplan-Meier estimate and Cox proportional hazard regression method were used for survival analyses. RESULTS Twenty-nine patients were identified with a median age of 25.9 years (range 1-74y). Four patients had gross total resection(GTR) while 25 underwent subtotal resection or biopsy. Nineteen patients had WHO grade 4 tumor. IDH1 mutation and MGMT promoter methylation were analyzed in 14 and four patients respectively; all were IDH wildtype and MGMT-promoter unmethylated. H3K27M mutation was present in five out of 10 patients tested. Twenty-two patients received photon-based radiation and 7 received proton therapy. Median RT dose was 50.4 Gy (range 39.6-54Gy) with 79% receiving >45Gy. 65% patients received concurrent chemotherapy, most commonly temozolomide. Twenty-three (79%) patients had documented recurrence. Overall, 16 patients relapsed locally, 10 relapsed in the brain and 8 developed leptomeningeal disease; only 8(35%) had isolated local relapse. Median OS from diagnosis was 21.3 months and median PFS after RT was 9.7 months. On univariate analysis, age, sex, GTR, grade, RT modality, RT dose and concurrent chemotherapy did not predict for survival. Patients with H3K27M mutation had a poorer median PFS after RT compared to those without the mutation but the difference did not reach statistical significance (p = 0.26). CONCLUSIONS Although 86% of patients had gross disease at RT and received a lower median RT dose than typically used in cerebral high-grade gliomas, only 55% of patients failed locally. H3K27M mutation may portend worse survival; future studies to improve the therapeutic approach in these patients are warranted.

Histone-mutant glioma presenting as diffuse leptomeningeal disease

Glioblastoma multiforme is the most common malignant primary brain tumor in adults. Histone H3 mutations have been identified in pediatric and adult gliomas, with H3K27M mutations typically associated with a posterior fossa midline tumor location and poor prognosis. Leptomeningeal disease is a known complication of histone-mutant glioma, but uncommon at the time of initial diagnosis. We describe a case of glioblastoma with H3K27M mutation that initially presented with progressive vision loss due to diffuse leptomeningeal disease in the absence of a mass lesion other than a small cerebellar area of enhancement and with cerebrospinal fluid cytology negative for malignant cells on two occasions, highlighting the importance of including primary CNS malignancies in the differential of diffuse radiographic leptomeningeal enhancement.

HGG-33. EXPLOITING METABOLIC DEFECTS WITH NAMPT INHIBITORS IN DIPG

Diffuse intrinsic pontine glioma (DIPG) are universally lethal pediatric brain tumors with limited treatment options. We recently performed synthetic lethal drug screen with a panel of DNA repair and metabolic inhibitors in vitro, in patient-derived DIPG cells and isogenic cell lines engineered to contain key DIPG-associated mutations. Nearly 80% of DIPGs harbor a recurrent H3K27M mutation in H3.3 (H3F3A) or H3.1 (HIST1H3B) histones. This has prompted us to consider H3K27M mutation-induced exploitable defects for a therapeutic gain. This screen identified synthetic lethal interactions between H3K27M mutations and the nicotinamide phosphoribosyl transferase (NAMPT) inhibitor, FK866. The association between H3K27M mutations and NAMPTi sensitivity was validated in follow-up studies using isogenic WT and H3K27M-mutant expressing pairs of human immortalized astrocytes and neural progenitor cells (NPCs). In addition, we tested the effects of FK866 in a panel of unique DIPG patient-derived tumor neurospheres in short-term viability assays. We found that FK866 induced depletion of NAD and exhibited toxicity towards H3K27M mutant DIPG cell lines with an IC50 of ~2.5 nM. These findings were consistent across three structurally unique NAMPT inhibitors. Finally, we found that inducible expression of mutant H3K27M results in a gradual, 50% decrease in cellular NAD levels over the course of five days, suggesting that H3K27M mutations may induce an inherent NAD metabolic defect that is exploited by NAMPTi’s. We now seek to understand the mechanistic basis for the observed metabolic defect and NAMPTi sensitivity associated with mutant H3K27M. In addition, we aim to identify specific NAMPTi and DNA damaging agent combinations which maximally exploit this H3K27M-associated NAD metabolic defects.