Abstract
NF-κB signaling is very important in cancers. However, the role of BRCC3-associated NF-κB signaling activation in bladder cancer remains to be characterized. Western blotting and IHC of tissue microarray were used to confirm the abnormal expression of BRCC3 in bladder cancer. Growth curve, colony formation, soft agar assay and Xenograft model were performed to identify the role of BRCC3 over-expression or knock-out in bladder cancer. Further, RNA-Seq and luciferase reporter assays were used to identify the down-stream signaling pathway. Finally, co-immunoprecipitation and fluorescence confocal assay were performed to verify the precise target of BRCC3. Here, we found that high expression of BRCC3 promoted tumorigenesis through targeting the TRAF2 protein. BRCC3 expression is up-regulated in bladder cancer patients which indicates a negative prognosis. By in vitro and in vivo assays, we found genetic BRCC3 ablation markedly blocks proliferation, viability and migration of bladder cancer cells. Mechanistically, RNA-Seq analysis shows that NF-κB signaling is down-regulated in BRCC3-deficient cells. BRCC3 binds to and synergizes with TRAF2 to activate NF-κB signaling. Our results indicate that high BRCC3 expression activates NF-κB signaling by targeting TRAF2 for activation, which in turn facilitates tumorigenesis in bladder cancer. This finding points to BRCC3 as a potential target in bladder cancer patients.
Highlights
IntroductionThere are approximately 78,100 new cases and 32,100 bladder cancer-related deaths in China annually (Cumberbatch et al, 2018)
Bladder cancer (BCa) is one of the most common tumors in the urinary system
The results indicated a significant upregulation of the BRCC3 expression level in the cancer tissue compared to the paired adjacent and normal bladder tissue (Figures 1C,D)
Summary
There are approximately 78,100 new cases and 32,100 bladder cancer-related deaths in China annually (Cumberbatch et al, 2018). The bladder cancer related incidence and mortality rates in China have been rising rapidly. The main method of clinical treatment for bladder cancer is surgical treatment. Once the opportunity for surgical intervention is lost or the disease recurs, treatment can rely on only traditional radiotherapy and chemotherapy, and there is no molecular targeted drug suitable for bladder cancer in the clinic. The main reason for this clinical approach is the lack of accurate and reliable molecular therapeutic markers for bladder cancer. Triple therapy with surgery/radiotherapy/chemotherapy has recently been explored to treat advanced bladder cancer, the efficacy is still not good enough (Dudley et al, 2018; Efstathiou et al, 2019). To explore the mechanism of bladder cancer progression, and identify specific diagnostic molecules and potential therapeutic targets for bladder cancer are quite urgently needed
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