Modification of dietary copper levels on the early stage of tumor-promotion with propylthiouracil in a rat two-stage thyroid carcinogenesis model

Abstract

To investigate the role of copper (Cu)-related cellular responses on thyroid carcinogenesis, the expression of ceruloplasmin (Cp) and metallothionein (MT)-1/2 were examined in relation to the activities of cell proliferation/apoptosis in the thyroid of rats at an early stage of tumor promotion under different dietary Cu levels. Male F344 rats were initiated with N-bis(2-hydroxypropyl)nitrosamine by single subcutaneous injection at 2800 mg/kg body weight, and 1 week later promoted with 6-propyl-2-thiouracil at 12 ppm in the drinking water for 4 weeks. Animals were fed a diet containing Cu at 0.6, 6 or 60 ppm from the time point of initiator-treatment to create marginally deficient, normal, or non-toxic supplementary levels of Cu. At both 0.6 and 60 ppm, the multiplicity of preneoplastic focal follicular cell hyperplasias (FFCHs) was decreased as compared with 6 ppm Cu, while adenomas also decreased at 0.6 ppm Cu. Both 0.6 and 60 ppm Cu levels revealed decreased Ki-67-immunoreactive proliferating cells in both FFCHs and surrounding follicles accompanied by mRNA downregulation of Cdc2a and Ccnb1, while TUNEL-positive apoptotic cells were unaltered with change of dietary Cu. Both Cp and MT-1/2 were immunolocalized in FFCHs and adenomas, with higher distribution in the latter. At both 0.6 and 60 ppm, the immunoreactivities and/or thyroidal mRNA levels of Cp and MT-1/2 were also decreased. Transcript levels of several antioxidant enzymes were up- or downregulated in the same direction at both Cu levels. Serum levels of thyroid-related hormones were unaltered at both Cu levels, except for non-significant reduction of thyroid-stimulating hormone at 0.6 ppm. These results suggest an involvement of Cp and MT-1/2 on the thyroid tumor promotion that can be suppressed by dietary Cu level through inhibition of cell proliferation associated with altered redox balance.