Differential involvement of chromosomes 1 and 4 in the formation of chromosomal aberrations in human lymphocytes after X-irradiation

Abstract

Whole blood samples from two healthy donors were cultured in the presence of 5-bromo-2'-deoxyuridine (BrdU) for a total of 107 h following in vitro X-irradiation with a dose of 2 Gy. Starting from 35 h after culture initiation, every subsequent 12 h a sample was taken from each culture and grown in the presence of demecolcine for another 12 h. At each sampling time, the aberrations involving chromosomes 1 and 4 were analysed using dual-colour fluorescence in situ hybridization (FISH) with chromosome-specific DNA libraries. Following differential staining of sister chromatids, the analysed cells were identified to be either in their first, second or third etc. mitosis after irradiation. Cells within the same postirradiation division contained higher frequencies of aberrations when derived from later sampling times, indicating a delay in progression of aberrant cells to mitosis. In contrast, when the aberration frequencies are calculated by sampling time (i.e. independent of the cell cycle) minimal effect of sampling time could be seen. This observation held true for all types of chromosomal aberrations. Analysis of about 2250 first-division cells for each donor (derived from all sampling times) indicates a relative overrepresentation of chromosome 4 in the formation of exchange aberrations/colour junctions. Whereas dicentric frequencies for chromosomes 1 and 4 were close to the expected values based on the DNA content of these chromosomes, frequencies of reciprocal translocations showed a clear overinvolvement of chromosome 4. This resulted in a distinct difference in the reciprocal translocation to dicentric ratio, being 1.12 for chromosome 1 and 2.09 for chromosome 4. These results indicate a non-DNA-proportional distribution of radiation-induced chromosome rearrangements in cultured human lymphocytes.