Abstract 1913: Investigation of targeting SKP2 to improve the treatment response in glioma

Glioma is the most frequent tumor in central nervous system (CNS), constituting about 30% of CNS tumors and 80% of malignant brain tumors. The current standard strategy for glioma treatment is surgery plus adjuvant chemotherapy and concurrent radiotherapy. However, the prognosis of glioma is still poor. It has been proved that the existence of glioma stem cells and the timely repair of DNA damages are the main causes of treatment failure. Skp2 (S-phase kinase associated protein-2), a member of F-box proteins, forms the Skp2 SCF complex with Skp1, Cullin-1, and Rbx1, serves as one of the important E3-ligases in the process of ubiquitination, and is responsible for substrate recognition. Skp2 is overexpressed in a variety of human cancers and promotes cancer progression by inducing p27 degradation. Importantly, Skp2 deficiency profoundly restricts cancer progression in multiple genetic mouse tumor models. Our group has demonstrated that Skp2 is involved in the regulation of pool size and self-renewal ability of hematopoietic stem cells, as well as breast cancer stem cells and nasopharyngeal carcinoma stem cell-like cells. However, the exact role of Skp2 in the regulation of glioma stem cells and DNA damage repair in glioma has not been elucidated yet. We proposed that targeting Skp2 could promote radio- and chemotherapy sensitivity through suppressing function of glioma stem cells. We first detected the expression of SKP2 in glioma tumor tissues and found that SKP2 was highly expressed in glioma and related to the prognosis of glioma patients. We also adopted gene knockdown methods and inhibitor pretreatment with small molecules in order to suppress the level of Skp2, and then checked the sphere formation and self-renewal ability of glioma stem cell upon radio/chemo treatments. In this way we evaluated the role of Skp2 in repressing the glioma cell proliferation and subsequently triggering apoptosis. Our project will clarify the novel mechanisms about how Skp2 is involved in the glioma radio- and chemotherapy resistance, which will provide a potential target to improve the radio/chemo therapeutic effect through targeting one single target. Citation Format: Jing Wang, Hong-Kai Su, Zhong-Ping Chen, Yue Qu, Hai-Ping Cai. Investigation of targeting SKP2 to improve the treatment response in glioma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 1913.