Abstract 2092: Genomic and proteomic analysis of glioblastoma recurrences during TTFields exposure

Abstract

Abstract Glioblastoma (GB) is the most aggressive type of brain tumor, and current treatments are generally ineffective in preventing recurrence. Tumor Treating Fields (TTFields) are an innovative treatment that has been shown to improve patients' life expectancy in the last two decades. TTFields therapy has an antitumoral effect that involves different mechanisms and is an optional add-on to standard maintenance temozolomide. Although TTFields therapy initially slows tumor progression, it does not prevent tumor relapse in most patients. In the present investigation, we run a genomic and proteomic analysis of surgical material from 10 patients treated with TTFields. GB tissues were obtained from the primary tumor mass and from a second surgery after tumor relapse. All the patients, in addition to brain tumor standard therapies, were treated with TTFields for eighteen hours a day, the time span of treatment application was dependent on GB recurrence. Control samples were obtained from primary and secondary surgeries of 5 patients treated with standard therapy alone. The GB tissue extracts were analyzed with an RNAseq routine, and the results from the secondary surgery were compared with the data obtained from tumor specimens of the primary surgery. A common feature of transcripts among all the patients was the alterations of several pathways promoting the increase of intracellular oxidation and cell cycle regulation. In parallel with the analysis of patient specimens, we developed an in vitro GB cell relapse model. This was instrumental in investigating the beneficial contribution of TTFields action during tumor relapse, but also in uncovering the limitation of this therapeutic procedure. GB primary cultures obtained from patients' surgery were exposed for up to 12 days with 200 kHz TTFields stimulation using the inovitro™ system. After 12 days of continuous TTFields application, GB cells showed an average depolarization of the resting membrane potential, increasing oxidation, and acidification of the cytoplasm. Genomic analysis of treated cells compared with wild-type primary culture, denoted an increase of tumor stem cell markers, activation of several metabolic pathways, and upregulation of different ion channel protein transcripts. Our final goal is to identify specific molecular features enhanced by TTFields treatment to be used as a parallel therapy to fight GB recurrence. Citation Format: Francesca Cianci, Guido Rey, Dietmar Krex, Davide Ceresa, Paolo Malatesta, Michele Mazzanti. Genomic and proteomic analysis of glioblastoma recurrences during TTFields exposure [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 2092.