AP-Endonuclease 1 Accelerates Turnover of Human 8-Oxoguanine DNA Glycosylase by Preventing Retrograde Binding to the Abasic-Site Product

A major product of oxidative DNA damage is 8-oxoguanine. In humans, 8-oxoguanine DNA glycosylase (hOGG1) facilitates removal of these lesions, producing an abasic (AP) site in the DNA that is subsequently incised by AP-endonuclease 1 (APE1). APE1 stimulates turnover of several glycosylases by accelerating rate-limiting product release. However, there have been conflicting accounts of whether hOGG1 follows a similar mechanism. In pre-steady-state kinetic measurements, we found that addition of APE1 had no effect on the rapid burst phase of 8-oxoguanine excision by hOGG1 but accelerated steady-state turnover (kcat) by ∼10-fold. The stimulation by APE1 required divalent cations, could be detected under multiple-turnover conditions using limiting concentrations of APE1, did not require flanking DNA surrounding the hOGG1 lesion site, and occurred efficiently even when the first 49 residues of APE1’s N-terminus had been deleted. Stimulation by APE1 does not involve relief from product inhibition because thymine...