Abstract

Abstract Cytotoxic drugs often fail to eradicate cancers due to the presence of treatment-persistent tumor cells that represent a reservoir for relapse. These “residual” cancer cells escape from chemotherapy- induced death by entering a reversible slow proliferation state, known as drug tolerant persister (DTP) state. Although improvement of treatment options achieved a survival benefit, Gastric Cancer (GC) is still endowed with poor prognosis. Surgery and neo/adjuvant chemotherapy remain the keystone of treatment. However, most patients with advanced cancer relapse even after complete surgical resection, suggesting a critical role for DTP cells. We obtained GC DTP cells from primary cells upon first- and second-line chemotherapy regimens (FLOT and FOLFIRI). Cells were treated with doses corresponding to the drug maximal plasmatic concentration. At the end of the treatment, cells were left without drugs (washout). During this window of time, when cells had regrown, they were re-challenged with chemotherapy and resulted still sensitive to the treatments, thus fulfilling the criteria for bona fide DTP cells. GC DTPs showed increased expression of markers associated with gastric stem cells (i.e. LGR5), downregulation of proliferative markers (i.e. Ki67) and decreased levels of PS6, evaluated as a readout of mTOR activation. Interestingly, DTPs resulted positive to X-gal-based β-galactosidase staining, suggesting a chemotherapy-induced senescence-like status. RNA-seq analysis and gene expression arrays allowed the identification of genes specifically down/upregulated in DTP cells. Using the intuitive enrichment analysis web-based tool Enrichr, we discovered that 54/173 of the downregulated genes characterizing the persister state were targets of a single miRNA. By quantitative real-time PCR, we validated the expression of this miR in all the models of FOLFIRI- and FLOT-obtained persister cells and we found it strongly upregulated (up to 8-fold), highlighting its possible contribute in the establishment of the persister state. Since among the target genes of this miR there are genes involved in the Homolougus Recombination (HR) system, we performed TaqMan™ Array assay for Human DNA repair gene expression on FOLFIRI-obtained DTPs. We identified a significant downregulation of genes strictly correlated to the HR machinery, suggesting that the FOLFIRI-induced persister cells can temporarily enter in a “BRCAness” status that may be used for a synthetic lethality approach using PARP inhibitors. Targeting the drug tolerant persister state is an essential approach to diminish cancer cells when they are potentially in their most vulnerable state. Citation Format: Elisabetta Puliga, Lisa Negro, Martina Olivero, Claudia Orrù, Fabrizio Maina, Daniela Conticelli, Simona Corso, Silvia Giordano. Targeting vulnerabilities of drug-tolerant persister cells in gastric cancer [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 5882.

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