ncRNA basic information
ncRNA ID: MI0000100
ncRNA Database: miRBase
ncRNA Name: miR-98
ncRNA Type: miRNA
ncRNA Expression: up-regulated
ncRNA Method: qRT-PCR
ncRNA Target Gene: LASS2
ncRNA Pathway: NA
Evidence (ncRNA-drug): validated
drug basic information
Drug ID: DB00515 (APRD00359)
Drug Name: Cisplatin
Drug Method: The present study aims to investigate the expression, biological roles and potential mechanisms of miR-98 in human bladder cancer. We found that miR-98 was upregulated in bladder urothelial carcinoma tissues compared with adjacent normal tissues. In addition, miR-98 expression was higher in bladder cancer cell lines than in uroepithelial cell line SV-HUC-1. Functional studies revealed that miR-98 mimic promoted proliferation of T24 cells while miR-98 inhibitor inhibited proliferation of BIU-87 cells. Moreover, miR-98 mimic increased cisplatin/doxorubicin resistance and inhibited apoptosis in T24 cells, while miR-98 inhibitor decreased chemoresistance and facilitated apoptosis in BIU-87 cells. Further experiments using MitoTracker and JC-1 staining showed that miR-98 could regulate mitochondrial fission/fusion balance and mitochondrial membrane potential. Western blot showed that miR-98 upregulated cyclin D1, p-Drp1 and Drp1. Using luciferase reporter assay, we demonstrated that LASS2 acted as a direct target of miR-98. LASS2 overexpression induced mitochondrial fusion and downregulated mitochondrial potential, with decreased p-Drp1 status. Additionally, LASS2 siRNA abrogated the effects of miR-98 mimic on Drp1phosphorylation and chemoresistance. We also found a negative correlation between LASS2 and miR-98 in bladder cancer tissues. In conclusion, our study demonstrates that miR-98 targets LASS2 and regulates bladder cancer chemoresistance through modulation of mitochondrial function.
Drug Response: resistant
Cancer basic information
Cancer: bladder cancer
Tissue/Cell: cell line (SV-HUC-1, J82, T24, 5637, RT4, BIU-87)
Other information
Title: MicroRNA-98 promotes drug resistance and regulates mitochondrial dynamics by targeting LASS2 in bladder cancer cells.
Journal: Exp Cell Res
Published: 2018
PubMed ID: 30463687