Abstract

Overall response rates in advanced Non-Small Cell Lung Cancer (NSCLC) remains low. Thus, novel molecular targets, tailored drugs and/or drug combinations are needed. Casein Kinase-2 (CK2) is a constitutively active and frequently over-expressed enzyme which fosters tumor survival, proliferation and metastasis. By using a clinical-grade and Cell Penetrating Peptide-based inhibitor coined as CIGB-300, we explore the anti-neoplastic effects caused by interruption of CK2 signaling in lung cancer cells lacking EGFR, ALK and ROS mutations. CIGB-300 penetrated and impaired viability and proliferation of Lung Adenocarcinoma (LUAD) (A549, NCI-H522) and Lung Squamous Carcinoma (LUSC) (NCI-H226 and SK-MES-1) cells in a dose-response manner. The differential activity could not be explained by overall peptide uptake or its subcellular distribution, as evidenced by flow cytometry and confocal microscopy. Upon internalization, CIGB-300 interacted with CK2 catalytic subunits (ɑ1/ɑ2) and CK2 substrates, thus impairing phosphorylation of enzyme substrates (CDC37s13, NPM1s125) and downstream proteins (RPS6s325/326). CK2 inhibition induced an early Reactive Oxygen Species (ROS) and mitochondrial membrane depolarization, which predates lung cancer cell death. Finally, intravenous injection of CIGB-300 in a cell line-based xenograft corroborated CIGB-300’s anti-tumor effects and suggested concurrent in situ reductions of CSNK2ɑ subunit and downstream RPS6s235/236 phosphorylation. Overall, CIGB-300 therapeutic hypothesis and antineoplastic effects demonstrated herein, further support the evaluation of this clinical-grade CK2 inhibitor in advanced NSCLC with limited therapeutic options.

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