Abstract
DNA topoisomerase II (TOP2) is required for the unwinding and decatenation of DNA through the induction of an enzyme-linked double-strand break (DSB) in one DNA molecule and passage of another intact DNA duplex through the break. Anticancer drugs targeting TOP2 (TOP2 poisons) prevent religation of the DSB and stabilize a normally transient intermediate of the TOP2 reaction mechanism called the TOP2-DNA covalent complex. Subsequently, TOP2 remains covalently bound to each end of the enzyme-bridged DSB, which cannot be repaired until TOP2 is removed from the DNA. One removal mechanism involves the proteasomal degradation of the TOP2 protein, leading to the liberation of a protein-free DSB. Proteasomal degradation is often regulated by protein ubiquitination, and here we show that inhibition of ubiquitin-activating enzymes reduces the processing of TOP2A- and TOP2B-DNA complexes. Depletion or inhibition of ubiquitin-activating enzymes indicated that ubiquitination was required for the liberation of etoposide-induced protein-free DSBs and is therefore an important layer of regulation in the repair of TOP2 poison–induced DNA damage. TOP2-DNA complexes stabilized by etoposide were shown to be conjugated to ubiquitin, and this was reduced by inhibition or depletion of ubiquitin-activating enzymes.SIGNIFICANCE STATEMENTThere is currently great clinical interest in the ubiquitin-proteasome system and ongoing development of specific inhibitors. The results in this paper show that the therapeutic cytotoxicity of DNA topoisomerase II (TOP2) poisons can be enhanced through combination therapy with ubiquitin-activating enzyme inhibitors or by specific inhibition of the BMI/RING1A ubiquitin ligase, which would lead to increased cellular accumulation or persistence of TOP2-DNA complexes.
Highlights
DNA topoisomerase II (TOP2) mediates important changes in DNA topology that are essential for processes, such as chromosome condensation, chromosome segregation, replication, and transcription (Nitiss, 2009a; Pommier et al, 2016)
ABBREVIATIONS: DSB, double-strand break; H2AX, histone H2A family member X; gH2AX, S-139 phospho-histone H2AX; IC20, concentration at 20% growth inhibition; Pf50, potentiation factor at 50% growth inhibition; siRNA, small interfering RNA; SUMO, small ubiquitin-like modifier; TARDIS, Trapped in Agarose DNA Immunostaining; TOP2, DNA topoisomerase II; TOP2A, DNA topoisomerase IIa; TOP2B, DNA topoisomerase IIb; UAE, ubiquitin-activating enzyme; WO, washout
The first step requires the activation of ubiquitin, which involves the formation of a high-energy thioester bond between ubiquitin and ubiquitin-activating enzyme (UAE1 or UBA6 in human cells) (Groettrup et al, 2008), and the E1 inhibitor MLN7243 inhibits all ubiquitination
Summary
DNA topoisomerase II (TOP2) mediates important changes in DNA topology that are essential for processes, such as chromosome condensation, chromosome segregation, replication, and transcription (Nitiss, 2009a; Pommier et al, 2016). These enzymes catalyze a “strand passage” mechanism whereby one double-stranded DNA molecule is passed through a double-stranded break in another. TOP2 forms an intermediate enzyme-bridged DNA gate termed the TOP2DNA covalent complex (or cleavage complex), wherein each monomer of the dimeric TOP2 molecule is covalently bound to one end of the double-strand break (DSB) through a 59phosphotyrosyl bond. As the DSB is covalently coupled to and buried within the TOP2 enzyme, DNA cleavage does not initiate the DNA damage response
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