METTL14-mediated Bim mRNA m6A modification augments osimertinib sensitivity in EGFR-mutant NSCLC cells
- Mol Cancer Res. 2024 Jul 2. doi: 10.1158/1541-7786.MCR-23-1018.
- 1. Guangdong Medical University, China.
- 2. Guangdong medical university, zhanjiang city, China.
- 3. Affiliated Hospital of Qingdao University, China.
- 4. Affiliated Cancer Hospital & Institute of Guangzhou Medical University, China.
- 5. Guangdong Medical University, Zhanjiang, China.
- 6. Guangzhou Medical University Cancer Hospital, Guangzhou, China.
- 7. Sun Yat-sen University, Affiliated Hospital of Guangdong Medical College, China.
- 8. Guangdong Medical College, Zhanjiang, China.
- 9. Department of Biology, School of Basic Medical Science, Guangdong Medical University, China.
- 10. Guangzhou Medical University Cancer Hospital, Guangzhou, Guangdong, China.
- 11. Guangzhou Medical University, guangzhou, China.
- 12. Guangzhou Women and Children's Medical Center, Guangzhou Medical University, China.
- 13. Guangdong Medical universitty, Zhanjiang, China.
Resistance to osimertinib represents a significant challenge for the successful treatment of non-small cell lung Cancer (NSCLC) harboring activating mutations in epidermal growth factor receptor (EGFR). N6-methyladenosine (m6A) on mRNAs is critical for various biological processes, yet whether m6A regulates osimertinib resistance of NSCLC remains unknown. In this study, we demonstrated that developing osimertinib-resistant phenotypes depends on m6A reduction resulting from downexpression of m6A methyltransferase METTL14 in EGFR-mutant NSCLCs. Both in vitro and in vivo assay showed that specific knockdown of METTL14 was sufficient to confer osimertinib resistance and elevated expression of METTL14 rescued the efficacy of osimertinib in the resistant NSCLC cells. Mechanistically, METTL14 promoted m6A methylation of pro-apoptotic Bim mRNA and increased Bim mRNA stability and expression, resulting in activating the Bim-dependent pro-apoptotic signaling and thereby promoting osimertinib-induced cell Apoptosis. Analysis of clinical samples revealed that decreased expression of METTL14 was observed in osimertinib-resistant NSCLC tissues and significantly associated with a poor prognosis. In conclusion, our study reveals a novel regulatory mechanism by which METTL14-mediated m6A methylation of Bim mRNA inhibited osimertinib resistance of NSCLC cells. It offers more evidences for the involvement of m6A modification in regulation of osimertinib resistance, and provides potential therapeutic targets for novel approaches to overcome the tolerance of osimertinib and Other EGFR-TKIs. Implications: This study offers more evidences for the involvement of METTL14-mediated m6A modification in regulation of osimertinib resistance, and provides potential therapeutic targets for novel approaches to overcome the tolerance of osimertinib and Other EGFR-TKIs.
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