Pattern of ras and gsp oncogene mutations in radiation-associated human thyroid tumors

C. Challeton, A. Bounacer, J. A. Du Villard, B. Caillou, F. De Vathaire, R. Monier, M. Schlumberger, H. G. Suárez

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    Résumé

    The preferential activation of the Ki-ras oncogene in follicular radiation-associated human thyroid carcinomas, has been suggested by Wright et al. However, only 12 thyroid tumors were analysed in this study. In order to confirm if radiation favours, in human thyroid tumorigenesis, the appearance of a particular molecular lesion, we studied 33 benign and malignant human radiation-associated thyroid tumors. We used polymerase chain reaction (PCR) amplification and allele-specific hybridization with mutant-specific probes for the three ras genes and the gsp oncogene. Compared to 85 'spontaneous' human thyroid tumors, the radiation-associated cases: (1) show a similar overall frequency of ras and gsp mutations (about 30% and 6% respectively); (2) present a similar frequency of mutation of the three pas genes without any predominance in adenomas and papillary carcinomas and (3) all Ki-ras mutations were found in papillary carcinomas (4/15). ras and gsp genes were never found mutated simultaneously, suggesting an alternative role for both oncogenes in the thyroid tumorigenic radiation-associated process.

    langue originaleAnglais
    Pages (de - à)601-603
    Nombre de pages3
    journalOncogene
    Volume11
    Numéro de publication3
    étatPublié - 3 août 1995

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