Tumor necrosis factor receptor (TNFR)-related factors (TRAFs) are important linker molecules in the tumor necrosis factor superfamily (TNFSF) and the Toll-like/interleukin-1 receptor (TLR/ILR) superfamily. There are seven members: TRAF1-TRAF7, among those members, tumor necrosis factor receptor-associated factor 6 (TRAF6) is upregulated in various tumors, which has been related to tumorigenesis and development. With the in-depth study of the relationship between TRAF6 and different types of tumors, TRAF6 has oncogenic characteristics involved in tumorigenesis, tumor development, invasion, and metastasis through various signaling pathways, therefore, targeting TRAF6 has provided a novel strategy for tumor treatment. This review summarizes and analyzes the role of TRAF6 in tumorigenesis and tumor development in combination with the current research on TRAF6 and tumors.
Although accumulating evidence had revealed that NFAT1 has oncogenic characteristics, the role of this molecule in melanoma cells remains unclear. Previous studies proved that CD147 plays a crucial function in melanoma cell metastasis and invasion through matrix metalloproteinase 9 (MMP‐9) expression; however, the details of how CD147 regulates MMP‐9 expression remain elusive. In this study, we demonstrated that CD147 and NFAT1 are overexpressed in the tissues of patients with primary and metastatic melanoma, which has shown a positive correlation. Further, we observed that CD147 regulates NFAT1 activation through the [Ca2+]i‐calcineurin pathway. Knockdown of NFAT1 significantly suppresses melanoma metastasis, and we demonstrated that CD147 affects melanoma metastasis in an NFAT1‐dependent manner. Moreover, we verified that NFAT1 directly binds to MMP‐9 promoter. Inhibition of CD147 expression significantly abrogates MMP‐9 promoter luciferase gene reporter activity as well as NFAT1 association with MMP‐9 promoter. Taken together, this study demonstrated that CD147 affects MMP‐9 expression through regulating NFAT1 activity and provided a novel mechanism by which NFAT1 contributes to melanoma metastasis through the regulation of MMP‐9.
Melanoma is a fatal cancer with a significant feature of resistance to traditional chemotherapeutic drugs and radiotherapy. A mutation in the kinase BRAF is observed in more than 66% of metastatic melanoma cases. Therefore, there is an urgent need to develop new BRAF‐mutant melanoma inhibitors. High‐dose chloroquine has been reported to have antitumour effects, but it often induces dose‐limiting toxicity. In this study, a series of chloroquine derivatives were synthesized, and lj‐2‐66 had the best activity and was selected for further investigation. Furthermore, the anti‐BRAF‐mutant melanoma effect and mechanism of this compound were explored. CCK‐8 and colony formation assays indicated that lj‐2‐66 significantly inhibited the proliferation of BRAF‐mutant melanoma cells. Flow cytometry revealed that lj‐2‐66 induced G2/M arrest in melanoma cells and promoted apoptosis. Furthermore, lj‐2‐66 increased the level of ROS in melanoma cells and induced DNA damage. Interestingly, lj‐2‐66 also played a similar role in BRAF inhibitor‐resistant melanoma cells. In summary, we found a novel chloroquine derivative, lj‐2‐66, that increased the level of ROS in melanoma cells and induced DNA damage, thus leading to G2/M arrest and apoptosis. These findings indicated that lj‐2‐66 may become a potential therapeutic drug for melanoma harbouring BRAF mutations.
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