digitonin and Hypothyroidism

The effect of altered thyroid status and food-deprivation on palmitic acid oxidation in isolated rat liver mitochondria was studied in the absence and presence of digitonin. Mitochondria prepared from triiodothyronine-treated (hyperthyroid) and food-deprived rats metabolized palmitic acid at the same rate as the untreated controls (euthyroid). Mitochondria prepared from thyroidectomized (hypothyroid) rats metabolized palmitic acid at a rate lower than was that seen with mitochondria from euthyroid controls in either the fed or fasted state. Fasting had no effect on palmitic acid oxidation by mitochondria prepared from euthyroid rats but diminished the rates seen in both hyper- and hypothyroid states. Digitonin (0.04 mg/mg mitochondrial protein) increased the sensitivity of the rate of fatty acid oxidation to inhibition by alpha-bromopalmitic acid. The addition of digitonin to the incubation mixture resulted in two-fold increases in the rate of palmitic acid oxidation in all states. This study shows that the limitations imposed by hypothyroidism on fatty acid oxidation in intact liver are preserved in isolated mitochondria.

Topics: Animals; Digitonin; Hyperthyroidism; Hypothyroidism; Liver; Male; Mitochondria, Liver; Nutritional Status; Oxidation-Reduction; Palmitic Acids; Rats; Rats, Sprague-Dawley; Subcellular Fractions; Thyroid Gland; Thyroidectomy; Triiodothyronine

The comparative study of the in vivo synthesis of thyroglobulin and proteins other than thyroglobulin was carried out in thyroid glands from animals submitted to different levels of TSH stimulation. The different levels of hormonal stimulation modify neither the rate of labeling after injection of the isotope, nor the level of the free labeled amino acid in the glands (percent of the total uptake), but they have a very significant effect on the level of incorporation of the isotope into total proteins. In hypostimulated thyroids the total protein synthesis is very much reduced, while in hyperstimulated glands it is significantly increased. In both hyper- and hypostimulated animals, the proportion of radioactivity bound to the particulate protein fraction is higher than in control rats. However, the solubilization by digitonine of these proteins is lower in hypostimulated and higher in hyperstimulated animals than in controls. Thyroglobulin synthesis is significantly modified qualitatively and quantitatively in both hypo- and hyperstimulated glands. Qualitative modifications are characterized by a changed ratio of 19 S/12 S molecules with respect to the controls. This is probably caused by a more important dissociation of 19S molecules, due to the lower level of halogenation in both hypo- and MTU treated glands. The quantitative modifications of thyroglobulin synthesis, expressed either in absolute values (DPM/mg of tissue), or relatively to the total proteins (percent of total newly formed proteins), are characterized by a very important inhibition of this synthesis in hypostimulated glands, and its stimulation in glands chronically submitted to the TSH action. The modifications of synthesis observed for the proteins other than thyroglobulin are less significant in both types of treated glands than are those observed for thyroglobulin. The level of hormonal stimulation has no effect on the distribution of these proteins between soluble and the particulate fraction, but seems to have a slight effect on the solubilization of the latter ones. Comparative evaluation of the TSH effect on the synthesis of different thyroidal proteins shows that it has a much more specific and significant action on thyroglobulin than on other proteins. The differential effect of TSH on the synthesis of thyroglobulin and proteins other than thyroglobulin suggests that different mechanisms may exist by which TSH regulates the synthesis of these two types of proteins.

Topics: Animals; Digitonin; Hyperthyroidism; Hypophysectomy; Hypothyroidism; Kinetics; Methylthiouracil; Protein Biosynthesis; Rats; Thyroglobulin; Thyroid Gland; Thyroxine