Bowman–Birk protease inhibitor activates DNA‐dependent protein kinase and reduces formation of radiation‐induced dicentric chromosomes

Abstract

Purpose: To test a stimulatory effect of the radioprotector Bowman Birk protease inhibitor (BBI) upon DNA repair processes. Materials and methods: An effect of BBI upon DNA repair was investigated by quantification of radiation‐induced dicentric chromosomes. Sensitivity to ionizing radiation was determined by clonogenic survival assay. Quantification of activity of the DNA‐dependent kinase was performed by immunoprecipitation and phosphorylation of a TP53‐derived peptide. Results: The formation of radiation‐induced dicentric chromosomes was reduced significantly after pretreatment of cells with BBI. By using a cell line with an inducible expression of a mutated TP53, it was shown that the BBI‐mediated reduction of dicentric chromosome formation depended on the presence of wild‐type TP53. To get further insights into the molecular mode of action of BBI, activity of the DNA‐dependent protein kinase (DNA‐PK) was quantified. BBI treatment resulted in a stimulation of basal (DNA‐PK) activity. In SCID mouse fibroblasts deficient in DNA‐PK activity, BBI failed to reduce the amount of radiation‐induced dicentric chromosomes and the radioprotective effect was absent. Likewise, cells expressing mt.TP53 did not show radioprotection by BBI. Conclusions: It was observed that BBI exerts its radioprotective effect by a reduction of incorrect DNA repair, resulting in a reduced amount of dicentric chromosomes. This effect on the fidelity of DNA repair is TP53 dependent and correlated with induction of DNA‐PK activity.