Abstract
e20035 Background: Lung cancer is one of the most frequently diagnosed cancers and is the leading cause of cancer-related death worldwide. Non-small cell lung carcinoma (NSCLC) represents 85% of lung cancers and is the most common type with poor prognosis. The lysine-specific demethylase UTX (gene name KDM6A) demethylates H3K27me2/3 at genes and enhancers and have been shown to support oncogenic transcription factors. We hypothesize that UTX is a highly pleiotropic factor in tumorigenesis and may plays a critical role in controlling DNA replication-associated gene activation as well as in replication stress-related DNA damage repair. Methods: To evaluate the role of UTX in tumorigenesis, shRNA-mediated UTX knockdown was employed in NCI-H1975 cells followed by cell cycle and cell proliferation assays. In the UTX-knocked down NCI-H1975 cells, target genes involved in DNA replication and DNA damage repair were discovered by RNA sequencing and further validated with RT-qPCR. Effects of UTX depletion on DNA replication and radiation-induced DNA repair were analyzed by immunofluorescence. Effects of UTX depletion on cell cycle arrest and the ATR–CHK1 checkpoint signaling pathway were analyzed by flow cytometry and immunoblotting. In vivo response to UTX inhibition monotherapy (UTX knockdown) and combination therapy of UTX knockdown with ceralasertib, a selective ATR kinase inhibitor, was evaluated in dox-inducible UTX knockdown NCI-H1975 xenografts. Results: Induction of UTX knockdown significantly reduced the NCI-H1975 tumor volume compared to the control group, showing anti-tumor activity. Furthermore, loss of UTX induced hyperactivation of ATR–CHK1 checkpoint signaling pathway, suggesting the UTX-depleted tumor cells attempt to alleviate replication stress to escape from apoptosis. To inhibit the UTX-depletion induced ATR–CHK1 pathway, ceralasertib (formerly AZD6738), an oral potent selective inhibitor of ATR, was combined with UTX-knockdown for in vitro and in vivo evaluation. Consistent with in vitro cell-based assay, combination therapy of ceralasertib with UTX depletion showed enhanced tumor growth inhibition and regression in the NCI-H1975 xenograft model. Conclusions: Our findings provide new insights into a pro-oncogenic role of UTX in supporting tumor maintenance via engaging DNA replication and repair pathway. Depletion of UTX alone may serve as a new therapeutic target in non-small cell lung carcinoma; and further combination with ceralasertib enhances the anti-tumor activity of UTX knockdown by inhibiting the ATR–CHK1 checkpoint signaling pathway.
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