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Enhanced cytarabine-induced killing in OGG1-deficient acute myeloid leukemia cells

Nichole Owen, Irina G. Minko, Samantha A. Moellmer, Sydney K. Cammann, R. Stephen Lloyd, Amanda K. McCullough

2021Proceedings of the National Academy of Sciences23 citationsDOIOpen Access PDF

Abstract

expression, which correlate with increased therapeutic-induced cell cytotoxicity and good prognosis for improved, relapse-free survival compared with other AML patients. Here we present data demonstrating that AML cell lines deficient in OGG1 have enhanced sensitivity to cytarabine (cytosine arabinoside [Ara-C]) relative to OGG1-proficient cells. This enhanced cytotoxicity correlated with endogenous oxidatively-induced DNA damage and Ara-C-induced DNA strand breaks, with a large proportion of these breaks occurring at common fragile sites. This lethality was highly specific for Ara-C treatment of AML cells deficient in OGG1, with no other replication stress-inducing agents showing a correlation between cell killing and low OGG1 levels. The mechanism for this preferential toxicity was addressed using in vitro replication assays in which DNA polymerase δ was shown to insert Ara-C opposite 8-oxo-dG, resulting in termination of DNA synthesis. Overall, these data suggest that incorporation of Ara-C opposite unrepaired 8-oxo-dG may be the fundamental mechanism conferring selective toxicity and therapeutic effectiveness in OGG1-deficient AML cells.

Topics & Concepts

CytarabineMyeloid leukemiaCancer researchLeukemiaFusion geneBiologyMedicineImmunologyGeneGeneticsAcute Myeloid Leukemia ResearchDNA Repair MechanismsProtein Degradation and Inhibitors
Enhanced cytarabine-induced killing in OGG1-deficient acute myeloid leukemia cells | Litcius