Exportin 1 as a therapeutic target against chemoresistance in small cell lung cancer.

e20613 Background: Small cell lung cancer (SCLC) is an extremely aggressive disease comprising around 13% of lung cancer cases and responsible for approximately 250,000 deaths globally per year. A major cause of SCLC poor prognosis is the sparse treatment options available, typically resulting in only transient responses. The backbone of SCLC treatment over the past several decades has been platinum-based doublet chemotherapy, with the recent addition of immunotherapy to first-line chemotherapy showing only limited benefit in a small subset of patients. Major hurdles to improving SCLC treatment include development of rapid chemoresistance and ineffective second line therapies. The identification of more durably effective therapeutic strategies is a major unmet clinical need. Methods: We performed an in vitro CRISPR screen in SCLC cell lines to identify potential therapeutic targets to sensitize to chemotherapy, including short-term cultured cell lines derived from patient-derived xenografts (PDXs). Candidate hits were validated genetically and pharmacologically with in vitro and in vivo. Signaling pathways involved in phenotypes observed were studied by RNA sequencing and western blot, and toxicity studies were performed in vivo to assess the safety of the agents at pharmacologically effective doses. We performed immunohistochemistry (IHC) to assess expression of candidate targets in tissue microarrays (TMAs). Results: Our CRISPR screen revealed the nuclear exporter XPO1 (Exportin 1) as a promising target sensitizing to chemotherapy, independently of the SCLC subtype. Importantly, exportin 1 is a therapeutic target in hematological malignancies, counting with a potent and selective inhibitor, selinexor, approved for clinical use. Combination of selinexor with cisplatin or irinotecan demonstrated high synergy in vitro and exquisite efficacy i n vivo in an array of chemonäive and chemoresistant SCLC PDXs, respectively, including all major SCLC subtypes. These chemotherapy-sensitizing effects were associated with the ability of Exportin 1 to impair chemotherapy-induced AKT overactivation, potentially occurring as a cytoprotective/anti-apoptotic mechanism in response to chemotherapy. The combinations were well tolerated in mice. We found that XPO1 mRNA expression was higher in SCLC than in any other solid tumor type or hematological malignancies, which we were able to confirm at the protein level in clinical TMAs. Conclusions: Exportin 1 inhibition strongly enhances sensitivity of SCLC tumors to cisplatin and irinotecan, used in first line and second line treatment of SCLC tumors, respectively. These results provide preclinical rationale for the combination of selinexor with first line and second line chemotherapy in SCLC. The clinical availability of selinexor will allow immediate clinical translation of these results in a disease setting with extremely limited therapeutic options.