Nitric oxide upregulates expression of DNA-PKcs to protect cells from DNA-damaging anti-tumour agents
W Xu, L Liu, G Smith - Nature Cell Biology, 2000 - nature.com
W Xu, L Liu, G Smith
Nature Cell Biology, 2000•nature.comNitric-oxide synthase (NOS) activity has been detected in many human tumours, although its
function is unclear. Here we show that exposure of cells to nitric oxide (NO) results in a 4–5-
fold increase in expression of the DNA-dependent protein-kinase catalytic subunit (DNA-
PKcs), one of the key enzymes involved in repairing double-stranded DNA breaks. This NO-
mediated increase in enzymatically active DNA-PK not only protects cells from the toxic
effects of NO, but also provides crossprotection against clinically important DNA-damaging …
function is unclear. Here we show that exposure of cells to nitric oxide (NO) results in a 4–5-
fold increase in expression of the DNA-dependent protein-kinase catalytic subunit (DNA-
PKcs), one of the key enzymes involved in repairing double-stranded DNA breaks. This NO-
mediated increase in enzymatically active DNA-PK not only protects cells from the toxic
effects of NO, but also provides crossprotection against clinically important DNA-damaging …
Abstract
Nitric-oxide synthase (NOS) activity has been detected in many human tumours, although its function is unclear. Here we show that exposure of cells to nitric oxide (NO) results in a 4–5-fold increase in expression of the DNA-dependent protein-kinase catalytic subunit (DNA-PKcs), one of the key enzymes involved in repairing double-stranded DNA breaks. This NO-mediated increase in enzymatically active DNA-PK not only protects cells from the toxic effects of NO, but also provides crossprotection against clinically important DNA-damaging agents, such as X-ray radiation, adriamycin, bleomycin and cisplatin. The NO-mediated increase in DNA-PKcs described here demonstrates the presence of a new and highly effective NO-mediated mechanism for DNA repair.
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