PURPOSE: To study stable and unstable chromosomal aberrations in the haemopoietic cells of CBA/H mice after exposure to both high- and low-LET radiations. MATERIALS AND METHODS: Chromosomal aberrations were scored in the clonal progeny of X-, alpha- or non-irradiated short-term repopulating stem cells using the spleen colony-forming unit (CFU-S) assay, 12 days post-transplantation and in the bone marrow reconstituted by X-, neutron- or non-irradiated exogenous (transplanted) or endogenous (X- or neutron whole-body-irradiated) long-term repopulating stem cells for up to 24 months. RESULTS: Chromosomal instability was demonstrated in 3-6% of cells in all cases. After transplantation of X- or neutron-irradiated bone marrow approximately 8% of cells with stable aberrations were recorded at all times. After 3Gy X- or 0.5 Gy neutron- whole-body irradiation stable aberrations were detected in approximately 17 and 5% of cells respectively. CONCLUSIONS: Chromosomal instability induced in vitro can be transmitted in vivo by transplantation of haemopoietic stem cells exposed to high- or low-LET radiations. Comparable instability can be induced and shown to persist for the remaining lifetime after whole-body irradiation. There was no direct relationship between the expression of stable and unstable aberrations and significant interanimal variation in the expression of both stable and unstable aberrations.
PURPOSE: To study stable and unstable chromosomal aberrations in the haemopoietic cells of CBA/H mice after exposure to both high- and low-LET radiations. MATERIALS AND METHODS: Chromosomal aberrations were scored in the clonal progeny of X-, alpha- or non-irradiated short-term repopulating stem cells using the spleen colony-forming unit (CFU-S) assay, 12 days post-transplantation and in the bone marrow reconstituted by X-, neutron- or non-irradiated exogenous (transplanted) or endogenous (X- or neutron whole-body-irradiated) long-term repopulating stem cells for up to 24 months. RESULTS: Chromosomal instability was demonstrated in 3-6% of cells in all cases. After transplantation of X- or neutron-irradiated bone marrow approximately 8% of cells with stable aberrations were recorded at all times. After 3Gy X- or 0.5 Gy neutron- whole-body irradiation stable aberrations were detected in approximately 17 and 5% of cells respectively. CONCLUSIONS: Chromosomal instability induced in vitro can be transmitted in vivo by transplantation of haemopoietic stem cells exposed to high- or low-LET radiations. Comparable instability can be induced and shown to persist for the remaining lifetime after whole-body irradiation. There was no direct relationship between the expression of stable and unstable aberrations and significant interanimal variation in the expression of both stable and unstable aberrations.
Authors: Burong Hu; Peter Grabham; Jing Nie; Adayabalam S Balajee; Hongning Zhou; Tom K Hei; Charles R Geard Journal: Radiat Res Date: 2011-11-11 Impact factor: 2.841
Authors: Lei Huang; Suzanne Grim; Leslie E Smith; Perry M Kim; Jac A Nickoloff; Olga G Goloubeva; William F Morgan Journal: Mol Cell Biol Date: 2004-06 Impact factor: 4.272
Authors: Leta S Steffen; Jeffery W Bacher; Yuanlin Peng; Phuong N Le; Liang-Hao Ding; Paula C Genik; F Andrew Ray; Joel S Bedford; Christina M Fallgren; Susan M Bailey; Robert L Ullrich; Michael M Weil; Michael D Story Journal: Mutagenesis Date: 2012-09-17 Impact factor: 3.000