Modification of the ionizing radiation response in living cells by an scFv against the DNA-dependent protein kinase

doi:10.1093/nar/gkg775

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Nucleic Acids Research, 2003, Vol. 31, No. 20 5848-5857
© 2003 Oxford University Press

Modification of the ionizing radiation response in living cells by an scFv against the DNA-dependent protein kinase

Shuyi Li, Yoshihiko Takeda, Stéphanie Wragg, John Barrett¹, Andrew Phillips and William S. Dynan^*

Institute of Molecular Medicine and Genetics and ¹ Department of Radiology, Medical College of Georgia, Augusta, GA 30912, USA

*To whom correspondence should be addressed. Tel: +1 706 721 8756; Fax: +1 706 721 8752; Email: wdynan{at}mail.mcg.edu

The non-homologous end joining pathway uses pre-existing proteinsto repair DNA double-strand breaks induced by ionizing radiation.Here we describe manipulation of this pathway in living cellsusing a newly developed tool. We generated a single chain antibodyvariable fragment (scFv) that binds to the DNA-dependent proteinkinase catalytic subunit (DNA-PKcs), a key enzyme in the pathway.In contrast to existing pharmacologic inhibitors, the scFv bindsa newly defined regulatory site outside the kinase catalyticdomain. Although the scFv inhibits kinase activity only modestly,it completely blocks DNA end joining in a cell-free system.Microinjection of the scFv sensitizes human cells to radiation,as measured by a reduction in efficiency of colony formationand induction of apoptosis at an otherwise sublethal dose of1.5 Gy. The scFv blocks non-homologous end joining in situ ata step subsequent to histone ${gamma}$ -H2AX focus formation but preceding ${gamma}$ -H2AX dephosphorylation. Blockage occurs in cells exposed toas little as 0.1 Gy, indicating that DNA-PKcs is essential fordouble-strand break repair even at low radiation doses. Theability to modify the radiation response in situ in living cellsprovides a link between biochemical, genetic and cytologic approachesto the study of double-strand break repair intermediates.

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