AI Article Synopsis
- Resistance formation is common in high-risk neuroblastoma patients after initial therapy, leading to the investigation of YM155, a drug initially thought to target survivin, but now believed to also induce DNA damage and deplete Mcl-1.
- In studies of neuroblastoma cells resistant to other drugs, YM155 was found to inhibit cell viability by reducing survivin levels and activating p53, especially when combined with MDM2 inhibitors.
- The research highlights that adaptations in cancer cells, including changes in ABCB1 and SLC35F2 levels and mutations in p53, can lead to resistance against YM155, suggesting survivin remains a critical therapeutic target for p53 wild-type neuroblastomas in future treatments.
Article Abstract
Resistance formation after initial therapy response (acquired resistance) is common in high-risk neuroblastoma patients. YM155 is a drug candidate that was introduced as a survivin suppressant. This mechanism was later challenged, and DNA damage induction and Mcl-1 depletion were suggested instead. Here we investigated the efficacy and mechanism of action of YM155 in neuroblastoma cells with acquired drug resistance. The efficacy of YM155 was determined in neuroblastoma cell lines and their sublines with acquired resistance to clinically relevant drugs. Survivin levels, Mcl-1 levels, and DNA damage formation were determined in response to YM155. RNAi-mediated depletion of survivin, Mcl-1, and p53 was performed to investigate their roles during YM155 treatment. Clinical YM155 concentrations affected the viability of drug-resistant neuroblastoma cells through survivin depletion and p53 activation. MDM2 inhibitor-induced p53 activation further enhanced YM155 activity. Loss of p53 function generally affected anti-neuroblastoma approaches targeting survivin. Upregulation of ABCB1 (causes YM155 efflux) and downregulation of SLC35F2 (causes YM155 uptake) mediated YM155-specific resistance. YM155-adapted cells displayed increased ABCB1 levels, decreased SLC35F2 levels, and a p53 mutation. YM155-adapted neuroblastoma cells were also characterized by decreased sensitivity to RNAi-mediated survivin depletion, further confirming survivin as a critical YM155 target in neuroblastoma. In conclusion, YM155 targets survivin in neuroblastoma. Furthermore, survivin is a promising therapeutic target for p53 wild-type neuroblastomas after resistance acquisition (neuroblastomas are rarely p53-mutated), potentially in combination with p53 activators. In addition, we show that the adaptation of cancer cells to molecular-targeted anticancer drugs is an effective strategy to elucidate a drug's mechanism of action.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5133961 | PMC |
| http://dx.doi.org/10.1038/cddis.2016.257 | DOI Listing |
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