Abstract 1064: Antiproliferative effects of Tumor Treating Fields in human mesothelioma cell lines

Abstract

Abstract Despite the increasing knowledge of the biology of malignant pleural mesothelioma (MPM), patients with this diagnosis still have a poor prognosis with a 5-year survival rate of lower than 10%. The effectiveness demonstrated by Tumor Treating Fields (TTFields) in combination with chemotherapy in preclinical experiments and in MPM patients (NCT02397928) affirms TTFields as a promising therapeutic tool. Knowledge of the mechanism of action of TTFields and its interaction with chemotherapeutic agents may contribute to the design of more effective clinical trials for MPM patients. A panel of primary MPM cells was isolated from pleural effusion and/or lavages of patients' thoracic cavity, before administration of therapeutic treatment, obtaining six cell lines from the 3 types of MPM cells: epithelioid CD473 and CD484, sarcomatoid CD60 and CD432, and biphasic CD487 and CD491. RNAseq analysis revealed that the transcriptional profiles of CD473 and CD60 cells were comparable with those derived from patient biopsies of the same histotype, representing clinically relevant MPM models. Antiproliferative effects induced by TTFields alone (1.12 V/cm; 150 KHz; for 96h duration) were studied in these MPM cell lines. Cell survival and cell cycle perturbations analyses during and after treatment were performed. Consistent with clinical observations, epithelioid MPM cells demonstrated greater sensitivity to TTFields than biphasic and sarcomatoid MPM cells. Cell cycle analysis revealed that the former cell type was blocked in G2M phase and was followed by formation of polyploid cells; while the latter cell types were only slightly affected by TTFields with a general delay in all cell cycle phases. Apoptotic cells were present in all treated samples, but while epithelioid and biphasic cell death was already observed during the first 24h of treatment, sarcomatoid cells needed to be treated for at least 24h before starting apoptotic pathways. The antiproliferative effect observed in epithelioid cells was persistent even after treatment cessation, whereas biphasic and sarcomatoid cells were able to reinitiate growth upon TTFields cessation. RNAseq experiments were performed in CD473 and CD60 cells at different times during TTFields application to explore transcriptional modifications that may explicate these varied MPM cell responses. Preliminary data suggested that TTFields induced a transcriptional response already detectable at earlier time points of treatment (8h; maximum effect at 24h). The number of differentially expressed genes was higher in CD473 relative to CD60 cells (1951 in CD473 and 336 in CD60 at 24h), involving several pathways, that need to be further investigated. These data demonstrate that TTFields induce specific effects on cell proliferation in varied subsets of mesothelioma cells and provide a mechanistic rationale for future therapies and combinations with other anticancer drugs for MPM treatment. Citation Format: Monica Lupi, Federica Mirimao, Nicolò Panini, Greta Piazza, Lara Paracchini, Laura Mannarino, Sergio Marchini, Federica Grosso, Serena Penpa, Antonio Maconi, Giovanni L. Ceresoli, Maurizio D'Incalci. Antiproliferative effects of Tumor Treating Fields in human mesothelioma cell lines [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 1064.