Silencing PARP-1 binding protein Inhibits Cell Migration and Invasion via Suppressing UBE2C in Nasopharyngeal Cancer Cells

Abstract

Background Nasopharyngeal carcinoma (NPC) is a malignancy with a 2 per 100 000 incidence rate in the world. Overall survival (OS) of patients in stage I–II disease is around 80%, whereas OS of patients in stage III-IVB disease drops to 60%, implying the importance of diagnosis to reduce NPC mortality. However, more than 70% patients of NPC were diagnosed at advanced stages (stage III and IV) in clinics, and it definitely contributes to little substantial improvement in the 5-year survival rates although NPC is sensitive to radio-and chemotherapy. Hence, development of novel biomarkers and targetable genes in NPC is eagerly awaited. Methods We had analyzed the dataset GSE12452 and found hundreds of genes trans-activated in NPC. Among them, this study focused on PARP-1 binding protein (PARPBP) whose overexpression was also validated in GSE13597 and GSE53819 datasets. Results Knockdown of PARPBP significantly reduced cell viability in NPC and also identified hundreds of differentially expressed genes including 377 downregulated and 518 upregulated genes in HONE-1 cells with stably knockdown PARPBP. Furthermore, PARPBP might promote cell migration and invasion in NPC through positive regulation of ubiquitin-conjugating enzyme 2C (UBE2C). Conclusion The results demonstrate the aberrant expression of PARPBP in NPC, and imply its importance in nasopharyngeal carcinogenesis which further opens up the possibility of PARPBP as a novel diagnostic biomarker for NPC therapy.