Metabolic reprogramming is a hallmark of cancer, and abnormal lipid metabolism is associated with drug resistance in bladder cancer cells. The long noncoding RNA (lncRNA) UCA1 is overexpressed in bladder cancer, but its functional contribution to lipid metabolism remains uncharacterized. In this study, we demonstrated that lncRNA UCA1 inhibits epirubicin-induced cell apoptosis by supporting abnormal lipid metabolism in bladder cancer cells. Mechanistically, lncRNA UCA1 promotes lipid accumulation in vitro and in vivo by upregulating PPARα mRNA and protein expression, which is mediated by miR-30a-3p. Knockdown of lncRNA UCA1 increased epirubicin-induced apoptosis via miR-30a-3p/PPARα and downstream p-AKT/p-GSK-3β/β-catenin signaling. Furthermore, mixed free fatty acids upregulated lncRNA UCA1 expression by promoting recruitment of the transcription factor RXRα to the lncRNA UCA1 promoter. These findings were verified in a mouse xenograft model and are consistent with the expression patterns in human bladder cancer patients. Overall, these findings establish the role of lncRNA UCA1 in lipid metabolism and bladder cancer cell resistance to epirubicin, suggesting that lncRNA UCA1 may serve as a candidate target for enhancing bladder cancer chemotherapy.
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Article Synopsis
- Understanding lncRNA-miRNA interactions is important for cellular signaling and cancer studies, particularly in how the long non-coding RNA (lncRNA) UCA1 impacts ovarian cancer through its relationship with let-7 miRNAs.* -
- The research posits that UCA1 functions as a competing endogenous RNA (ceRNA), sequestering let-7 miRNAs to influence the expression of their target genes, which can lead to increased cancer progression.* -
- A new technique called Modified Crosslinking and Immunoprecipitation (M-CLIP) was developed to effectively capture these interactions, confirming that UCA1 binds with let-7 miRNAs and could potentially reveal new insights into cancer progression mechanisms
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