Abstract
Tumor necrosis factor (TNF)-stimulated nuclear factor-kappa B (NF-κB) signaling plays very crucial roles in cancer development and progression, and represents a potential target for drug discovery. Roburic acid is a newly discovered tetracyclic triterpene acid isolated from oak galls and exhibits anti-inflammatory activity. However, whether roburic acid exerts antitumor effects through inhibition of TNF-induced NF-κB signaling remains unknown. Here, we demonstrated that roburic acid bound directly to TNF with high affinity (K D = 7.066 μM), blocked the interaction between TNF and its receptor (TNF-R1), and significantly inhibited TNF-induced NF-κB activation. Roburic acid exhibited antitumor activity in numerous cancer cells and could effectively induce G0/G1 cell cycle arrest and apoptosis in colorectal cancer cells. Importantly, roburic acid inhibited the TNF-induced phosphorylation of IKKα/β, IκBα, and p65, degradation of IκBα, nuclear translocation of p65, and NF-κB-target gene expression, including that of XIAP, Mcl-1, and Survivin, in colorectal cancer cells. Moreover, roburic acid suppressed tumor growth by blocking NF-κB signaling in a xenograft nude mouse model of colorectal cancer. Taken together, our findings showed that roburic acid directly binds to TNF with high affinity, thereby disrupting its interaction with TNF-R1 and leading to the inhibition of the NF-κB signaling pathway, both in vitro and in vivo. The results indicated that roburic acid is a novel TNF-targeting therapeutics agent in colorectal cancer as well as other cancer types.
Highlights
Colorectal cancer, a malignant disease of the digestive system, is the third most common cause of new cancer cases in both men and women and the second most frequent cause of cancer deaths [1, 2]
The results showed that roburic acid could directly interact with tumor necrosis factor (TNF), but not with TNF receptor 1 (TNF-R1) (Figures 1B, C)
The biolayer interferometry (BLI)-based solution competition assay showed that roburic acid could compete with TNF-R1 for TNF binding (Figure 1D), indicating that roburic acid disrupts the interaction between the two proteins
Summary
Colorectal cancer, a malignant disease of the digestive system, is the third most common cause of new cancer cases in both men and women and the second most frequent cause of cancer deaths [1, 2]. Approximately 1.4 million new cases of colorectal cancer are diagnosed and over 690,000 people die from this condition every year [3]. The pathophysiology of colorectal cancer is very complex, and its development is a multistage process. Surgical resection provides a possibility for cure in early-stage patients, whereas several anticancer drugs, such as oxaliplatin, 5-fluorouracil, and leucovorin, are recommended for treating advanced colorectal cancer [6, 7]. Current therapy regimens are not always effective at treating advanced colorectal cancer because of drug resistance and adverse side effects and toxicity [3]. There is an urgent need to identify potential therapeutic targets and discover drugs with greater specificity and less adverse effects from natural resources to treat colorectal cancer, as well as elucidate the underlying molecular mechanisms
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