Involvement of Werner syndrome protein in MUTYH-mediated repair of oxidative DNA damage.

[werner syndrome]

Reactive oxygen species constantly generated as by -products of cellular metabolism readily attack genomic DNA creating mutagenic lesions such as 7 ,8 -dihydro-8 -oxo-guanine (8 -oxo-G ) that promote aging . 8 -oxo-G :A mispairs arising during DNA replication are eliminated by base excision repair initiated by the MutY DNA glycosylase homologue (MUTYH ). Here , by using formaldehyde crosslinking in mammalian cell extracts , we demonstrate that the WRN helicase /exonuclease defective in the premature aging disorder Werner syndrome (WS ) is recruited to DNA duplex containing an 8 -oxo-G :A mispair in a manner dependent on DNA polymerase λ (Pol λ ) that catalyzes accurate DNA synthesis over 8 -oxo-G . Similarly , by immunofluorescence , we show that Pol λ is required for accumulation of WRN at sites of 8 -oxo-G lesions in human cells . Moreover , we show that nuclear focus formation of WRN and Pol λ induced by oxidative stress is dependent on ongoing DNA replication and on the presence of MUTYH . Cell viability assays reveal that depletion of MUTYH suppresses the hypersensitivity of cells lacking WRN and /or Pol λ to oxidative stress . Biochemical studies demonstrate that WRN binds to the catalytic domain of Pol λ and specifically stimulates DNA gap filling by Polλ over 8 -oxo-G followed by strand displacement synthesis . Our results suggest that WRN promotes long -patch DNA repair synthesis by Pol λ during MUTYH -initiated repair of 8 -oxo-G :A mispairs .