MicroRNA-146b-5p/FDFT1 mediates cisplatin sensitivity in bladder cancer by redirecting cholesterol biosynthesis to the non-sterol branch.

Chemotherapy against muscle-invasive bladder cancer is increasingly challenged by the prevalence of chemoresistance. The cholesterol biosynthesis pathway has garnered attention in studies of chemoresistance, but conflicting clinical and molecular findings necessitate a clearer understanding of its underlying mechanisms. Recently, we identified farnesyl-diphosphate farnesyltransferase 1 (FDFT1)-the first specific gene in this pathway-as a tumor suppressor and chemoresistance modulator. Raman spectroscopy revealed higher levels of FDFT1-related metabolites in chemotherapy-sensitive bladder cancer tissue compared to resistant tissue; however, this observation lacks mechanistic insight. FDFT1 expression was reduced in our cisplatin-resistant bladder cancer cells (T24R) compared to parental cisplatin-sensitive cells (T24). Using functional knockdown and ectopic overexpression in T24/T24R cells, we mechanistically demonstrate the pathway through which FDFT1 mediates cisplatin sensitivity in bladder cancer cells. Bioinformatics analysis and rescue experiments showed that microRNA-146b-5p directly targets and downregulates FDFT1, reducing the cisplatin sensitivity of T24 cells, which can be restored by forced FDFT1 expression. Further investigation into the downstream cholesterol pathway revealed that FDFT1 suppression redirects its substrate toward the non-sterol branch of the pathway, as evidenced by the upregulation of non-sterol branch-associated genes and a reduced total cholesterol level in the sterol branch. Since the non-sterol pathway leads to the prenylation of isoprenoids and activation of Ras and Rho family proteins involved in cancer progression and chemoresistance, our findings suggest that redirection of the cholesterol biosynthesis pathway is a key mechanism underlying FDFT1-mediated cisplatin resistance in bladder cancer. The miR-146b-5p/FDFT1 axis represents a promising target for overcoming chemoresistance in bladder cancer.
Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Nur Akmarina B. M. Said reports financial support was provided by Malaysia Ministry of Higher Education. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper
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