Title: Effects of X-irradiation on cell-cycle progression, induction of chromosomal aberrations and cell killing in ataxia telangiectasia (AT) fibroblasts.

Authors: Nagasawa, H; Latt, S A; Lalande, M E; Little, J B

Published In Mutat Res, (1985 Jan-Feb)

Abstract: Survival, cumulative labeling indices, chromosomal aberrations and cell-cycle distribution by flow microfluorometry (FMF) were studied in fibroblasts from normal and three ataxia telangiectasia (AT) families after X-irradiation during density-inhibition of growth and immediate release by subculture to low density. Homozygotic AT (proband) fibroblasts were very hypersensitive to cell killing by X-irradiation (D0 = 40-45 rad). Fibroblasts from AT heterozygotes (parents) were minimally hypersensitive, with D0's (100-110 rad) slightly lower than those for normal fibroblasts (D0 = 120-140 rad). There were three different response groups for a G1 phase block induced by 400 rad of X-rays: (1) minimal or no G1 block was observed in AT homozygote cell strains; (2) 10-20% of the cells were blocked in G1 in normal cell strains; and (3) 50% or more of the cells were blocked in AT heterozygote strains. FMF profiles and cumulative labeling indices showed that homozygotic AT cells irradiated in plateau phase moved into the S-phase following subculture with no additional delay over non-irradiated controls. Homozygotic AT cells showed not only a 4-5 times higher frequency of X-ray-induced chromosomal aberrations than normal strains, but approximately 30% of these were of the chromatid-type. There were no differences in the frequency or type of X-ray-induced chromosomal aberrations between normal and heterozygotic AT cells.

PubMed ID: 3969079

MeSH Terms: No MeSH terms associated with this publication