Abstract
The anticancer activity of bortezomib (BTZ) has been increasingly studied in a number of indications and promising results for the use of this treatment have been shown in neuroblastoma. As BTZ treatment is usually administered in cycles, the development of resistance and side effects in patients undergoing therapy with BTZ remains a major challenge for the clinical usage of this compound. Common resistance development also means that certain cells are able to survive BTZ treatment and bypass molecular mechanisms that render BTZ anticancer activity. We studied the methylome of neuroblastoma cells that survived BTZ treatment. Our results indicate that BTZ induces pronounced genome wide methylation changes in cells which recovered from the treatment. Functional analyses of identified methylation changes demonstrated they were involved in key cancer pathology pathways. These changes may allow the cells to bypass the primary anticancer activity of BTZ and develop a treatment resistant and proliferative phenotype. To study whether cells surviving BTZ treatment acquire a proliferative phenotype, we repeatedly treated cells which recovered from the first round of BTZ treatment. The repetitive treatment led to induction of the extraordinary proliferative potential of the cells, that increased with subsequent treatments. As we did not observe similar effects in cells that survived treatment with lenalidomide, and non-treated cells cultured under the same experimental conditions, this phenomenon seems to be BTZ specific. Overall, our results indicate that methylation changes may play major role in the development of BTZ resistance.
Highlights
The anticancer activity of bortezomib (BTZ) has been increasingly studied in a number of indications and promising results for the use of this treatment have been shown in neuroblastoma
The unsupervised clustering of this data further verified that BTZ treatment induced genome wide methylation changes in the methylome of the cells that recovered from the treatment (Fig. 1B)
BTZ resistance development is an important challenge with the clinical use of this compound, especially since BTZ anticancer activity is increasingly being reported in numerous indications, extending the use of this medication
Summary
The anticancer activity of bortezomib (BTZ) has been increasingly studied in a number of indications and promising results for the use of this treatment have been shown in neuroblastoma. Functional analyses of identified methylation changes demonstrated they were involved in key cancer pathology pathways These changes may allow the cells to bypass the primary anticancer activity of BTZ and develop a treatment resistant and proliferative phenotype. In one of the first clinical trials exploring the utility of this compound in the treatment of neuroblastoma, BTZ in combination with irinotecan was shown to be well tolerated and displayed promising activity in patients with relapsed/refractory high-risk neuroblastoma[9]. As BTZ is administered in cycles the resistance develops over time in the majority of patients The fact that these patients develop treatment resistance, indicates that some cancer cells are able to bypass anticancer activity of the BTZ. We show that cells repeatedly treated with BTZ acquire significant proliferative potential
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