Long noncoding RNA TUG1 promotes cisplatin resistance in ovarian cancer via upregulation of DNA polymerase eta.
Ryosuke SonobePeng YangMiho M SuzukiKeiko ShinjoKenta IijimaNobuhiro NishiyamaKanjiro MiyataKazunori KataokaHiroaki KajiyamaYutaka KondoPublished in: Cancer science (2024)
Chemoresistance is a major cause of high mortality and poor survival in patients with ovarian cancer (OVCA). Understanding the mechanisms of chemoresistance is urgently required to develop effective therapeutic approaches to OVCA. Here, we show that expression of the long noncoding RNA, taurine upregulated gene 1 (TUG1), is markedly upregulated in samples from OVCA patients who developed resistance to primary platinum-based therapy. Depletion of TUG1 increased sensitivity to cisplatin in the OVCA cell lines, SKOV3 and KURAMOCHI. Combination therapy of cisplatin with antisense oligonucleotides targeting TUG1 coupled with a drug delivery system effectively relieved the tumor burden in xenograft mouse models. Mechanistically, TUG1 acts as a competing endogenous RNA by downregulating miR-4687-3p and miR-6088, both of which target DNA polymerase eta (POLH), an enzyme required for translesion DNA synthesis. Overexpression of POLH reversed the effect of TUG1 depletion on cisplatin-induced cytotoxicity. Our data suggest that TUG1 upregulation allows OVCA to tolerate DNA damage via upregulation of POLH; this provides a strong rationale for targeting TUG1 to overcome cisplatin resistance in OVCA.
Keyphrases
- long noncoding rna
- poor prognosis
- cell proliferation
- dna damage
- combination therapy
- nucleic acid
- circulating tumor
- single molecule
- cell free
- long non coding rna
- signaling pathway
- mouse model
- clinical trial
- risk factors
- dna methylation
- transcription factor
- mesenchymal stem cells
- drug delivery
- big data
- dna repair
- data analysis
- genome wide identification