O6-Methylguanine methyltransferase activity is increased in rat tissues by ionising radiation

Abstract

The effect of whole body ionising radiation from a linear accelerator on rat tissue O⁶-methylguanine (O⁶-meG) methyl-transferase (MT) activity has been assessed using an assay which measures the transfer of ³H-radioactivity from ³H-methylated substrate DNA to protein. The maximal effect occurred 2 days after a 1 krad dose, at which time activity in liver extracts was increased ∼5-fold in two different rat strains. Activity in lung and kidney was increased ∼4- and 2-fold, respectively. Similar degrees of enhancement were found in these three tissues using an h.p.l.c. method for measuring MT activity. The increase in activity was reflected in an increased capacity to repair O⁶-meG produced in liver DNA by administration of [¹⁴C]dimethylnitrosamine (DMN): this effect was dose dependent, being detectable after 30 rads and maximal after 600 rads. Incorporation of labelled breakdown products of the DMN into adenine in DNA increased as the dose radiation increased suggesting an inhibition of DNA synthesis. The implications of these results for the mechanism of enhancing O⁶-meG repair are discussed.