Abstract
High-grade serous ovarian cancer (HGSOC) is the most lethal gynecological malignancy. However, the molecular mechanisms underlying HGSOC development, progression, chemotherapy insensitivity and resistance remain unclear. Two independent GEO datasets, including the gene expression profile of primary ovarian carcinoma and normal controls, were analyzed to identify genes related to HGSOC development and progression. A KEGG pathway analysis of the differentially expressed genes (DEGs) revealed that the cell cycle pathway was the most enriched pathway, among which TTK protein kinase (TTK) was the only gene with a clinical-grade inhibitor that has been investigated in a clinical trial but had not been studied in HGSOC. TTK was also upregulated in cisplatin-resistant ovarian cancer cells from two other datasets. TTK is a regulator of spindle assembly checkpoint signaling, playing an important role in cell cycle control and tumorigenesis in various cancers. However, the function and regulatory mechanism of TTK in HGSOC remain to be determined. In this study, we observed TTK upregulation in patients with HGSOC. High TTK expression was related to a poor prognosis. Genetic and pharmacological inhibition of TTK impeded the proliferation of ovarian cancer cells by disturbing cell cycle progression and increasing apoptosis. TTK silencing increased cisplatin sensitivity by activating the mammalian target of rapamycin (mTOR) complex to further suppress cisplatin-induced autophagy in vitro. In addition, the enhanced sensitivity was partially diminished by rapamycin-mediated inhibition of mTOR in TTK knockdown cells. Furthermore, TTK knockdown increased the toxicity of cisplatin in vivo by decreasing autophagy. These findings suggest that the administration of TTK inhibitors in combination with cisplatin may lead to improved response rates to cisplatin in patients with HGSOC presenting high TTK expression. In summary, our study may provide a theoretical foundation for using the combination therapy of cisplatin and TTK inhibitors as a treatment for HGSOC in the future.
Highlights
Epithelial ovarian cancer is the most lethal gynecological malignancy, and high-grade serous ovarian carcinoma (HGSOC) accounts for 70% of ovarian cancer cases and is the most common subtype with the highest mortality rate [1]
NGS analysis of the signaling pathways affected by TTK protein kinase (TTK) knockdown Next-generation sequencing (NGS) was carried out in A2780 cells transfected with siTTK2 or negative control siRNA (NC) (n = 3) to clarify the potential mechanism by which TTK depletion suppressed the proliferation and increased the sensitivity of ovarian cancer cells to cisplatin
TTK depletion inhibits autophagy by activating the mammalian target of rapamycin (mTOR) signaling pathway in ovarian cancer cells Additional experiments were performed to further confirm that TTK is involved in the autophagy pathway
Summary
Epithelial ovarian cancer is the most lethal gynecological malignancy, and high-grade serous ovarian carcinoma (HGSOC) accounts for 70% of ovarian cancer cases and is the most common subtype with the highest mortality rate [1]. These results implied that TTK inhibitors effectively inhibited expression level was increased in cisplatin-resistant A2780 and ovarian cancer cell proliferation in vitro. MTT assays revealed that TTK silencing significantly enhanced the disturbing cell cycle progression sensitivity of ovarian cancer cells to CDDP at 24 and 48 h (Fig. 4B, We depleted the expression of TTK in CAOV3 and OV90 cells to C). The results revealed that TTK was successfully overexpressed in TTK knockdown cells (Fig. 2E blot assays showed that B389 or CDDP treatment alone increased the levels of apoptosis-related proteins, and this change was more remarkable when the combination treatment was applied (Fig. 5D). TTK inhibitors render CAOV3 and OV90 cells in TTK knockdown cells partially rescued the inhibitory effect on more sensitive to cisplatin
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