TY - JOUR
T1 - Differences in the susceptibility to iodine131-induced thyroid tumours amongst inbred mouse strains
AU - Dalke, Claudia
AU - Hölzlwimmer, Gabriele
AU - Calzada-Wack, Julia
AU - Quintanilla-Martinez, Leticia
AU - Atkinson, Michael J.
AU - Rosemann, Michael
PY - 2012/5
Y1 - 2012/5
N2 - Genetic factors can modify susceptibility to the carcinogenic effect of ionising radiation. To establish if radioiodine-induced thyroid cancer is similarly genetically influenced, we studied F1 hybrid crosses between inbred mouse strains. Mice were perinatally exposed to iodine-131 and thyroid tissues examined after 18 months. Differences in the incidence and distribution of histological subtypes were quantified in relation to genetic background. As expected, the occurrence of thyroid lesions was significantly higher in irradiated mouse hybrids than in unirradiated controls. The most frequent alterations were the simple and the complex hyperplasias, followed by follicular adenoma and, less frequently, follicular carcinoma. Both the incidence and distribution of the histiotype were different between the hybrid mouse crosses. Crosses using JF1 mice (M. m. molossinus) produced F1 offspring that were more resistant to radiation-induced thyroid lesions. Sequence analysis of Braf, Ret, Hras, Krcis, Kit and Trp53, all genes that are commonly mutated in human thyroid cancers, did not show any evidence of mutation in the tumours. However, mic-rosatellite analysis of genomic DNA revealed frequent allelic imbalances in complex hyperplasia and follicular adenoma. We conclude that genetic background, in particular the JF1 genotype, confer differences in susceptibility to the carcinogenic effects of radioiodine on the thyroid.
AB - Genetic factors can modify susceptibility to the carcinogenic effect of ionising radiation. To establish if radioiodine-induced thyroid cancer is similarly genetically influenced, we studied F1 hybrid crosses between inbred mouse strains. Mice were perinatally exposed to iodine-131 and thyroid tissues examined after 18 months. Differences in the incidence and distribution of histological subtypes were quantified in relation to genetic background. As expected, the occurrence of thyroid lesions was significantly higher in irradiated mouse hybrids than in unirradiated controls. The most frequent alterations were the simple and the complex hyperplasias, followed by follicular adenoma and, less frequently, follicular carcinoma. Both the incidence and distribution of the histiotype were different between the hybrid mouse crosses. Crosses using JF1 mice (M. m. molossinus) produced F1 offspring that were more resistant to radiation-induced thyroid lesions. Sequence analysis of Braf, Ret, Hras, Krcis, Kit and Trp53, all genes that are commonly mutated in human thyroid cancers, did not show any evidence of mutation in the tumours. However, mic-rosatellite analysis of genomic DNA revealed frequent allelic imbalances in complex hyperplasia and follicular adenoma. We conclude that genetic background, in particular the JF1 genotype, confer differences in susceptibility to the carcinogenic effects of radioiodine on the thyroid.
UR - http://www.scopus.com/inward/record.url?scp=84863459248&partnerID=8YFLogxK
U2 - 10.1269/jrr.11182
DO - 10.1269/jrr.11182
M3 - Article
C2 - 22739003
AN - SCOPUS:84863459248
SN - 0449-3060
VL - 53
SP - 343
EP - 352
JO - Journal of Radiation Research
JF - Journal of Radiation Research
IS - 3
ER -