Abstract

A tumor suppressor protein, stromal antigen 2 (STAG2), has recurrent mutations or loss of expression in many tumors including in bladder cancer, osteosarcoma (OS), and leukemia. However, the mechanism of STAG2 mutations promoting tumorigenesis is still unclear. The distribution of STAG2 mutations in cancer was determined through the COSMIC database; we also generated a STAG2 truncating mutation in OS cell line U2OS cells to mimic a common mutation in OS. CCK-8 assay was employed to evaluate the effect of STAG2 on proliferation and chemo-resistance in OS cells. Cell apoptosis and cell cycle assays were used to assess the effect of STAG2 on apoptosis and the cycle of OS cells. A high throughput RNA sequencing (RNA-Seq) strategy using the Illumina Hiseq 2500 platform was applied to characterize the transcriptome profile from STAG2 knockout and STAG2 WT OS cell lines. We found that STAG2 deficient-cells exhibited reduced cell proliferation and growth; however, they enhanced cell metastasis and invasion, and increased tolerance to chemotherapeutic drugs. We also found that PD-L1, a molecule involved in tumor immune evasion, was up-regulated in the SATG2-lost cells. Expression profile analysis by RNA-seq revealed that there were changes in the expression of many immune-related genes. Our findings indicated that STAG2 contributes to cell survival and chemo-resistance to cisplatin of OS, suggesting that deletion of STAG2 may promote tumorigenesis by enhancing the immune evasion capacity of cancer cells.

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