A. Kralik et al., INFLUENCE OF ZINC AND SELENIUM DEFICIENCY ON PARAMETERS RELATING TO THYROID-HORMONE METABOLISM, Hormone and Metabolic Research, 28(5), 1996, pp. 223-226
48 weaned male Sprague-Dawley rats with an initial average body weight
of 41 g were divided into 4 groups of 12 animals (tin c-deficient; ti
n c-adequate, pair-fed with zinc-deficient group; selenium-deficient;
selenium-adequate) for 40 days. All groups were fed a semisynthetic di
et with casein being the source of protein. In the selenium-deficient
diet, there was a selenium concentration of 0.038 mg/kg. The other die
ts were supplemented with Na-selenite in order to adjust the selenium
concentration to 0.3 mg/kg. In the zinc-deficient diet, there was a zi
nc concentration of 4.1 mg/kg. The zinc concentrations in the other di
ets were adjusted to 45 mg/kg by the addition of zinc-sulfate heptahyd
rate. Zinc-deficient rats were characterized by a markedly reduced alk
aline phosphatase activity in their serum, whilst selenium-deficient r
ats showed a markedly reduced glutathione peroxidase in serum proving
their respective zinc-deficient and selenium-deficient states. Zinc de
ficiency decreased concentrations of triiodothyronine (T-3) and free t
hyroxine (fT(4)) in serum by approximately 30% when compared with zinc
-adequate controls. The concentration of thyroxine (T-4) in serum was
not affected by zinc deficiency. Selenium-deficient animals had lower
concentrations of T-3 and T-4 than selenium-adequate animals. The conc
entration of fT(4) in serum was not affected by selenium deficiency. T
he activity of hepatic type I 5'deiodinase was decreased by 67 % by zi
nc deficiency and by 47 % by selenium deficiency compared to adequate
controls. The study data show that both zinc and selenium deficiency a
ffect the metabolism of thyroid hormones.