MYL9 binding with MYO19 suppresses epithelial-mesenchymal transition in non-small cell lung cancer

Background: The elusive function of myosin light chain 9 (MYL9) in cancer is an area ripe for further investigation. Methods: Bioinformatics was utilized to compare the expression levels of MYL9 in non-small cell lung cancer (NSCLC) and normal tissues. Gene set enrichment analysis (GSEA) was employed to investigate the pathways associated with MYL9. BioGRID database was utilized to screen for potential targets of MYL9. The expression of MYL9 and myosin 19 (MYO19) mRNA was quantified using quantitative reverse transcriptase PCR. Cell migration was assessed using a scratch wound healing assay. Protein levels of MYL9, MYO19, and epithelial-mesenchymal transition (EMT) biomarkers were examined using western blot (WB). EpCAM expression in different cell groups was profiled using flow cytometry analysis. Co-immunoprecipitation assays were performed to determine the binding affinity between MYL9 and MYO19. Additionally, direct protein interaction between MYL9 and MYO19 was explored using a GST-pull-down assay. Results: In NSCLC patients, MYL9 was significantly downregulated in vivo and in cell cultures, showing high enrichment in the EMT pathway. Scratch assays indicated its inhibitory effect on cell migration. Western blotting revealed that MYL9 suppresses EMT marker protein expression in NSCLC cells. Flow cytometry showed that MYL9 reduced EpCAM levels on the cell surface. MYO19 was identified as a potential target of MYL9 through CoIP and GST-pull-down assays. Rescue experiments demonstrated that MYO19 enhances cell migration, EMT marker expression, and EpCAM levels, but these effects were countered by MYL9 overexpression. Conclusion: MYL9 impedes the migration and EMT in NSCLC cells by binding to MYO19.