Polθ reverse transcribes RNA and promotes RNA-templated DNA repair

Genome-embedded ribonucleotides arrest replicative DNA polymerases (Pols) and cause DNA breaks. Whether mammalian DNA repair Pols efficiently use template ribonucleotides and promote RNA-templated DNA repair synthesis remains unknown. We find that human Polθ reverse transcribes RNA, similar to retroviral reverse transcriptases (RTs). Polθ exhibits a significantly higher velocity and fidelity of deoxyribonucleotide incorporation on RNA versus DNA. The 3.2-Å crystal structure of Polθ on a DNA/RNA primer-template with bound deoxyribonucleotide reveals that the enzyme undergoes a major structural transformation within the thumb subdomain to accommodate A-form DNA/RNA and forms multiple hydrogen bonds with template ribose 2′-hydroxyl groups like retroviral RTs. Last, we find that Polθ promotes RNA-templated DNA repair in mammalian cells. These findings suggest that Polθ was selected to accommodate template ribonucleotides during DNA repair.

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Soluble and insoluble nickel compounds induce DNA repair synthesis in cultured mammalian cells☆

Cancer Letters ◽

10.1016/0304-3835(83)90164-7 ◽

1983 ◽

Vol 17 (3) ◽

pp. 273-279 ◽

Cited By ~ 24

Author(s):

Steven H. Robison ◽

Orazio Cantoni ◽

J.Daniel Heck ◽

Max Costa

Keyword(s):

Dna Repair ◽

Mammalian Cells ◽

Repair Synthesis ◽

Nickel Compounds ◽

Dna Repair Synthesis

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Small molecule inhibitors of a human recombination-associated ATPase, RAD54

10.1101/614586 ◽

2019 ◽

Author(s):

Kirk T. Ehmsen ◽

Kenny K.H. Ang ◽

William D. Wright ◽

Julia L. Davies ◽

Yassir Younis ◽

...

Keyword(s):

Dna Repair ◽

Small Molecule ◽

Small Molecule Inhibitors ◽

Homology Search ◽

Dna Breaks ◽

Repair Synthesis ◽

Molecular Events ◽

Dna Strand Exchange ◽

Dna Repair Synthesis

ABSTRACTHomologous recombination (HR) is a principal support pathway for DNA replication and for recovery from DNA breaks and interstrand crosslinks, making it a rational target for inhibition in cancer therapy. The ATPase RAD54 functions in molecular events that promote DNA sequence-preservation during HR-mediated damage repair, including homology search, DNA strand exchange, and transition to DNA repair synthesis within a displacement loop intermediate. We developed a high-throughput biochemical screen to identify small-molecule inhibitors of human RAD54, using a phosphate detection assay to monitor RAD54 ATPase activity in the presence of double-stranded DNA (dsDNA). After filtering potential DNA intercalators and ‘frequent hitters,’ we identified two chemotypes that reproducibly inhibited RAD54 ATPase in vitro. We evaluated these chemotypes for inhibition of RAD54-dsDNA binding and cancer cell survival. A halogenated carbazole/dihydroacridine scaffold inhibited a panel of SWI2/SNF2-related ATPases but not VCP/p97, an unrelated ATPase. Small molecules that interfere with key steps in HR— such as inhibitors of RAD54—may expose DNA repair-dependent vulnerabilities in cancer cells.

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