P04.01.B MEK INHIBITORS IN PEDIATRIC RECURRENT SYMPTOMATIC UNRESECTABLE LOW-GRADE GLIOMAS HARBORING MAPK ALTERATION: A SINGLE CENTER EXPERIENCE

Abstract

Abstract BACKGROUND Treatment of inoperable, recurrent, progressive pediatric low-grade gliomas (pLGGs) remains controversial. Recent studies focused on aberrant activation of the mitogen-activated protein kinase (MAPK) pathway, due to gain of function mutations in RAS or BRAF genes or loss or inactivation of NF1. Selumetinib and trametinib, orally bioavailable and selective MEK1/MEK2 inhibitors (MEKi), act on MAPK pathway. In April 2020 the US Food and Drug Administration and in June 2021 the European Medicines Agency approved selumetinib for inoperable plexiform neurofibromas in Neurofibromatosis type 1 (NF1). We evaluated MEKi efficacy and safety in pLLGs harboring MAPK alteration. MATERIAL AND METHODS From July 2021 to February 2023 eight patients (5 females, 3 males, median age 8 years, range 4-18) were admitted to our hospital for symptomatic, recurrent, inoperable pLGGs (location: 3 hypothalamic-optic chiasm region, 2 posterior fossa, 1 temporo-mesial, 1 quadrigeminal plate, 1 diffuse leptomeningeal; MAPK alteration: 3 NF1 inactivation, 4 KIAA1549/BRAF gene fusion, 1 RNF130/BRAF fusion). MEKi were administered (6 selumetinib, 2 trametinib) after disease progression for failure of previous treatments (6 partial resection, 7 multiple chemotherapies, 2 radiotherapy). MRI assessment was performed every 4 months and radiological response was defined in accordance with RAPNO criteria. RESULTS At first evaluation, 3/8 patients (37,5%) showed a partial radiological response (-64,96% mean volume reduction, range 52,61%-77,19%) and 4/8 (50%) stable disease (0-41.67% volume decrease). Disease progression was observed in a patient heavily pretreated for acute leukemia. One patient with leptomeningeal spreading showed progressive disease at second evaluation. Median time to progression has not yet been reached. Six of 8 patients experienced at least one toxicity. The most frequent toxicities reported were mucocutaneus disorders (rash, mucositis, eczema). Three patients presented creatine phosphokinase (CPK) increase (one grade 2 with rapid normalization after therapy discontinuation). All patients on trametinib had to reduce treatment dose (for skin toxicity or increasing blood pressure). CONCLUSION MEKi, selumetinib and trametinib, represent promising strategies in children with recurrent/progressive LGGs harboring MAPK alterations. In our small series, the treatment was effective and well tolerable in patients with localized disease and without other risk factors. The most common toxicities were CPK elevation and rash. Further studies are needed to identify patients who may benefit most from MEKi treatment and to establish whether such treatments are superior to chemotherapy in front line setting for MAPK altered pLGGs.