BACKGROUND: Ribonucleotide reductase (RR) inhibition by hydroxyurea (HU) causes deoxyribonucleotide (dNTP) depletion, which activates the replication checkpoint, a part of the S-phase checkpoint that responds to DNA damage by inhibiting late origin firing. It also transactivates RR and other genes involved in DNA replication and repair. ICBP90 (overexpressed in breast cancer) is a novel Rb-associating transactivator for the human topoisomerase IIalpha gene and responds to DNA damage-induced checkpoint signaling. MATERIALS AND METHODS: ICBP90 expression was monitored by Western blot. Promoter activity was detected via the luciferase assay and gene silencing via siRNA. Cell death was monitored by the MTT assay. RESULTS: dNTP depletion by HU induced ICBP90, ICBP90 transactivated RR's M2 subunit gene, and ICBP90 induction was necessary for HU-induced M2 accumulation. Blocking the M2 accumulation via anti-ICBP90 siRNA caused greater sensitivity in HU-resistant human cancer. CONCLUSION: A transcriptional intervention strategy is presented through which HU-resistant cancers may be eradicated without dose escalation.
BACKGROUND: Ribonucleotide reductase (RR) inhibition by hydroxyurea (HU) causes deoxyribonucleotide (dNTP) depletion, which activates the replication checkpoint, a part of the S-phase checkpoint that responds to DNA damage by inhibiting late origin firing. It also transactivates RR and other genes involved in DNA replication and repair. ICBP90 (overexpressed in breast cancer) is a novel Rb-associating transactivator for the human topoisomerase IIalpha gene and responds to DNA damage-induced checkpoint signaling. MATERIALS AND METHODS:ICBP90 expression was monitored by Western blot. Promoter activity was detected via the luciferase assay and gene silencing via siRNA. Cell death was monitored by the MTT assay. RESULTS:dNTP depletion by HU induced ICBP90, ICBP90 transactivated RR's M2 subunit gene, and ICBP90 induction was necessary for HU-induced M2 accumulation. Blocking the M2 accumulation via anti-ICBP90 siRNA caused greater sensitivity in HU-resistant humancancer. CONCLUSION: A transcriptional intervention strategy is presented through which HU-resistant cancers may be eradicated without dose escalation.
Authors: Mei-Chuan Chen; Bingsen Zhou; Keqiang Zhang; Yate-Ching Yuan; Frank Un; Shuya Hu; Chih-Ming Chou; Chun-Han Chen; Jun Wu; Yan Wang; Xiyong Liu; D Lynne Smith; Hongzhi Li; Zheng Liu; Charles D Warden; Leila Su; Linda H Malkas; Young Min Chung; Mickey C-T Hu; Yun Yen Journal: Mol Pharmacol Date: 2015-03-26 Impact factor: 4.436
Authors: Cristina Sanchez-Fernandez; Carlos I Lorda-Diez; Juan A García-Porrero; Juan A Montero; Juan M Hurlé Journal: Cell Death Dis Date: 2019-04-25 Impact factor: 8.469