N6-methyladenosine-modified TRAF1 promotes sunitinib resistance by regulating apoptosis and angiogenesis in a METTL14-dependent manner in renal cell carcinoma

• Published in: Molecular cancer Vol. 21; no. 1; pp. 1 - 17
• Main Authors: Chen, Yuanlei, Lu, Zeyi, Qi, Chao, Yu, Chenhao, Li, Yang, Huan, Wang, Wang, Ruyue, Luo, Wenqin, Shen, Danyang, Ding, Lifeng, Ren, Liangliang, Xie, Haiyun, Xue, Dingwei, Wang, Mingchao, Ni, Kangxin, Xia, Liqun, Qian, Jun, Li, Gonghui
• Format: Journal Article
• Language: English
• Published: London BioMed Central Ltd 10.05.2022; BioMed Central; BMC
• Subjects: Analysis; Angiogenesis; Apoptosis; Cancer therapies; Carcinoma, Renal cell; Cell culture; Development and progression; Drug resistance; Gene expression; Kidney cancer; Kinases; Manufacturers; Methyltransferases; METTL14; N6-methyladenosine; Patients; Proteins; RCC; Renal cell carcinoma; RNA; Sunitinib-resistance; Targeted cancer therapy; TRAF1; Tumor necrosis factor; Tumor necrosis factor-TNF; Tumors; Xenografts; China; United States > US
• ISSN: 1476-4598; 1476-4598
• DOI: 10.1186/s12943-022-01549-1

Abstract Background Sunitinib resistance can be classified into primary and secondary resistance. While accumulating research has indicated several underlying factors contributing to sunitinib resistance, the precise mechanisms in renal cell carcinoma are still unclear. Methods RNA sequencing and m6A sequencing were used to screen for functional genes involved in sunitinib resistance. In vitro and in vivo experiments were carried out and patient samples and clinical information were obtained for clinical analysis. Results We identified a tumor necrosis factor receptor-associated factor, TRAF1, that was significantly increased in sunitinib-resistant cells, resistant cell-derived xenograft (CDX-R) models and clinical patients with sunitinib resistance. Silencing TRAF1 increased sunitinib-induced apoptotic and antiangiogenic effects. Mechanistically, the upregulated level of TRAF1 in sunitinib-resistant cells was derived from increased TRAF1 RNA stability, which was caused by an increased level of N6-methyladenosine (m6A) in a METTL14-dependent manner. Moreover, in vivo adeno-associated virus 9 (AAV9) -mediated transduction of TRAF1 suppressed the sunitinib-induced apoptotic and antiangiogenic effects in the CDX models, whereas knockdown of TRAF1 effectively resensitized the sunitinib-resistant CDXs to sunitinib treatment. Conclusions Overexpression of TRAF1 promotes sunitinib resistance by modulating apoptotic and angiogenic pathways in a METTL14-dependent manner. Targeting TRAF1 and its pathways may be a novel pharmaceutical intervention for sunitinib-treated patients.