Abstract
Aberrant and exclusive expression of chromatin regulators in retinoblastoma (RB) in contrast to terminally differentiated normal retina presents a unique opportunity of selective targeting for RB. However, precise roles of these chromatin regulators in RB development and their potential as therapeutic targets have not been defined thoroughly. Here, we report that targeting of disruptor of telomeric silencing 1-like (DOT1L), a histone H3K79 methyltransferase, sensitizes RB cells to chemotherapeutic drugs by impairing the DNA damage response and thereby potentiating apoptosis while it is largely inefficacious as a single-agent therapy. Moreover, we identified high mobility group AT-hook 2 (HMGA2) as a novel DOT1L target gene in RB cells and found that its aberrant expression is dependent on DOT1L. As HMGA2 depletion reduced CHK1 phosphorylation during DNA damage response and augmented the drug sensitivity in RB cells, our results suggested that DOT1L targeting has a dual role in chemosensitization of RB cells by directly interfering with the immediate involvement of DOT1L in early DNA damage response upon genotoxic insults and also by downregulating the expression of HMGA2 as a rather late effect of DOT1L inhibition. Furthermore, we provide the first preclinical evidence demonstrating that combined therapy with a DOT1L inhibitor significantly improves the therapeutic efficacy of etoposide in murine orthotopic xenografts of RB by rendering the response to etoposide more potent and stable. Taken together, these results support the therapeutic benefits of DOT1L targeting in combination with other chemotherapeutic agents in RB, with mechanistic insights into how DOT1L targeting can improve the current chemotherapy in an RB cell-selective manner.
Highlights
Retinoblastoma (RB) is a developmental tumor occurring in the eyes of young children through multiple genetic and epigenetic alterations following the initiating lesions in the RB1 gene in the developing retina [1,2,3]
As disruptor of telomeric silencing 1-like (DOT1L) is known to be required for proper DNA damage response and repair [18, 19, 27], we examined if inhibition of DOT1L can sensitize RB cells to genotoxic drugs
We investigated the role of histone H3K79 methyltransferase DOT1L in chemosensitization of RB cells
Summary
Retinoblastoma (RB) is a developmental tumor occurring in the eyes of young children through multiple genetic and epigenetic alterations following the initiating lesions in the RB1 gene in the developing retina [1,2,3]. Considering the possible adverse effects of conventional chemotherapeutic drugs [6,7,8], strategies to selectively sensitize RB cells to these drugs have been searched as an alternative approach to improve the efficacy of current chemotherapy. In line with this rationale, we recently demonstrated that downmodulation of UHRF1, an epigenetic regulator, enhances the sensitivity to chemotherapeutic drugs in RB cells by altering distinct sets of effector genes involved in DNA repair and redox homeostasis [9, 10]. Among the chromatin regulators misregulated in RB, this study focuses on histone methyltransferase DOT1L to explore its role in RB cell chemosensitization
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