Induction of hepatic mitochondrial alpha-glycerophosphate dehydrogenase by L-triiodothyronine in Singi fish (Heteropneustes fossilis Bloch)

A single injection of L-triiodothyronine (T3) in different doses (0.25, 0.5, 5, 20 and 50 micrograms/g) increased the hepatic mitochondrial cytochrome-linked alpha-glycerophosphate dehydrogenase (alpha-GPD) activity and mitochondrial protein content of Singi fish, as observed on the 3rd day. A non-linear dose-response relationship with respect to enzyme activity was observed with different doses of T3. A low dose of 0.1 micrograms of T3 per g failed to cause any change in alpha-GPD activity and mitochondrial protein content of the liver. The enhancement of alpha-GPD activity over the control level with a low and a high dose of T3, viz., 0.5 and 5 micrograms/g, was followed from the 1st to the 7th day, when it was found that enzyme activity reached the maximum level on the 3rd day and then gradually declined to the control value on the 7th day. The percentage increase in enzyme activity with 5 micrograms/g was higher than that with 0.5 microgram/g from the 2nd to 5th day. Compared to the control, these two doses of T3 caused an increase in alpha-GPD activity from the 1st to the 6th day. Cycloheximide inhibited the T3-induced increase in alpha-GPD activity, mitochondrial and total protein content of liver. Immersion of Singi fishes in thiourea-containing (1 mg/ml) medium for 30 days showed a fall in hepatic alpha-GPD activity in comparison to the euthyroid control. A single injection of T3 (0.5 microgram/g) to the hypothyroid fish recovered alpha-GPD activity to more than the euthyroid control level. An increase in mitochondrial protein content in the T3-injected hypothyroid fish has been observed. DNA content of the fish liver remained unchanged in every experimental condition. The results thus showed the significant responsiveness of the fish liver to thyroid hormone.     

Nuclear thyroxine and triiodothyronine binding in mononuclear cells in dependence of age

Nuclear binding of thyroxine (T4) and triiodothyronine (T3) in mononuclear blood cells was investigated in 12 young (age 16-30 years) healthy subjects (group A), in 12 middle-aged (age 31-60 years) healthy subjects (group B) and in 12 elderly (61-90 years) healthy subjects. Serum free T3 was depressed in group C as compared to the younger age groups, whereas serum free T4 and TSH did not differ between the groups. Maximal specific nuclear binding capacity for both T4 and T3 decreased with increasing age, T4 group A: 1.2 fmol T4/100 micrograms DNA, group B: 1.2 fmol T4/100 micrograms DNA, group C: 0.7 fmol T4/100 micrograms DNA; T3 group A: 1.7 fmol T3/100 micrograms DNA, group B: 1.0 fmol T3/100 micrograms DNA, group C: 0.9 fmol T3/100 micrograms DNA. The equilibrium association constant (Ka) for T4 increased with age, group A: Ka = 3.3 X 10(9) l/mol, group B: Ka = 3.2 X 10(9) l/mol, group C: Ka = 6.4 X 10(9) l/mol, whereas Ka for nuclear binding of T3 decreased with age group A: Ka = 3.9 X 10(9) l/mol, group B: Ka = 5.9 X 10(9) l/mol, group C: Ka = 1.8 X 10(9) l/mol. We conclude that, whereas the opposite variations of nuclear capacity and binding affinity for T4 tend to preserve the nuclear T4 concentration, the nuclear T3 concentration definitely decreases with age. The unaltered serum levels of TSH suggest that the decrease of both serum levels of free T3 and the nuclear T3 concentration might represent physiologically changes in old age.     

Tri-iodothyronine-induced increase in rat liver nuclear thyroid-hormone receptors associated with increased mitochondrial alpha-glycerophosphate dehydrogenase activity.

The effect of tri-iodothyronine injection on the nuclear tri-iodothyronine receptor (putative thyroid-hormone receptor) was examined in rat liver. Nuclear receptors were extracted from isolated nuclei with 0.4 M-KCl, and their association constants (Ka) and maximal binding capacities (Cmax.) were determined by Scatchard analyses with and without correction for the endogenous hormone. The amount of endogenous tri-iodothyronine bound to non-histone protein was estimated on the basis of the specific radio-activity of [125I]tri-iodothyronine injected 2 h before the rats were killed. It was demonstrated that Cmax. of the nuclear receptors was 2.5-fold higher in severely hyperthyroid than in hypothyroid rats. However, irrespective of the thyroid status, the Ka of the receptors remained unchanged when corrected for endogenous tri-iodothyronine bound to non-histone protein. The validity of the correction was supported by experiments in vitro in which nuclear receptors were preincubated with unlabelled tri-iodothyronine. The increase in Cmax. of nuclear receptors was directly related to mitochondrial alpha-glycerophosphate dehydrogenase activity. These results suggest a hormonal modulation of the nuclear receptors which is associated with hormonal action.     

Increase in liver nuclear tri-iodothyronine receptors associated with increased deoxyribonucleic acid by long-term administration of tri-iodothyronine in thyroidectomized rats

The effect of long-term administration of small amounts of tri-iodothyronine was examined on the nuclear tri-iodothyronine receptors in rat liver. The maximal binding capacity (C(max.)) and association constant (K(a)) of the receptors were determined in thyroidectomized rats given vehicle alone (group A), 2mug of tri-iodothyronine/100g body wt. (group B) or 7mug of tri-iodothyronine/100g body wt. (group C) for 2 weeks. Scatchard analyses with correction for the amount of endogenous tri-iodothyronine revealed that C(max.) values per g of liver were increased to 1.5 and 2.7 times the control value in groups B and C respectively. Since concentrations of DNA per g of liver were significantly increased in the two groups of hormone-treated rats, C(max.) values per mg of DNA were nearly the same in group B, but still increased significantly in group C compared with group A. K(a) values remained unchanged in all three groups of animals. Mitochondrial alpha-glycerophosphate dehydrogenase activity was 9.6 and 28.7 times as high in groups B and C, respectively, as in group A. Concentrations of endogenous tri-iodothyronine bound to non-histone protein were substantially increased in groups B and C, although concentrations of serum tri-iodothyronine remained rather low. The results obtained indicate that the long-term administration of tri-iodothyronine in small doses induces an increase in the nuclear receptors associated with increased DNA with and without accompanying a relative increase in the receptor concentration in thyroidectomized rats. Also the hormonal effect is closely related to the total number of the nuclear receptors and the concentrations of nuclear tri-iodothyronine bound to the receptors rather than the serum tri-iodothyronine concentrations.     

Vitamin B12-induced alterations in activities of alpha-glycerophosphate dehydrogenase and malic enzyme in brain of singi fish, Heteropneustes fossilis (Bloch)

Different doses of vitamin B12 (0.25, 0.5, 1, 2 and 4 micrograms/g, injected intraperitoneally for three consecutive days) altered the activities of mitochondrial-alpha-glycerophosphate dehydrogenase (alpha-GPD) and NADP-dependent cytosolic malic enzyme (ME) in the brain of singi fish. The alpha-GPD activity increased at doses of 0.5, 1, 2 and 4 micrograms/g vitamin B12. A dose of 0.5 microgram/g vitamin B12 induced less activity than higher doses. ME activity increased with 1, 2 and 4 micrograms/g of vitamin B12/g. The mitochondrial and cytosolic protein content remained unchanged after vitamin B12 administration. Cycloheximide treatment inhibited the vitamin B12-induced increase in alpha-GPD and ME activity. Thus, vitamin B12 is involved in the induction of some enzymes in fish brain.     

Stimulatory effect of calcitonin on fatty acid synthesis in the liver of fed rats

The effect of calcitonin (CT) on free fatty acid concentration in the serum and liver of fed rats was investigated. A single subcutaneous administration of CT (synthetic [Asu1,7] eel CT;80 MRC mu/100 g body weight) produced a significant increase in serum free fatty acid concentration. An appreciable effect of CT was observed at a dose of 5 MRC mU/100 g body weight. The hormonal effect was also observed in thyroparathyroidectomized rats. The effect of CT on serum free fatty acid was diminished by fasting. Free fatty acid content in the hepatic cytosol of fed rats was markedly increased by CT administration. The hormonal effect was observed at a dose of 5 MRC mU/100 g body weight. Furthermore, stimulation of fatty acid synthesis caused by intraperitoneal injection of alanine (1.122 mmoles/100 g body weight) was markedly enhanced by administration of CT (5, 20 and 80 MRC mU/100 g body weight). This effect of CT on the liver may be the cause of increased level of fatty acid in the serum. The present results suggest that CT may stimulate synthesis of free fatty acid in the liver of fed rats.     

Effects of adrenaline pretreatment on in vitro binding of 125I-triiodothyronine to nuclear receptor, intracellular distribution of endogenous triiodothyronine and activities of alfa-glycerophosphate dehydrogenase and malic enzyme in rat liver

Especially coated adrenaline tablets (A) or placebo tablets (P) which release linearly the hormone were implanted in male Wistar rats. Six hours later animals were sacrificed and kinetic parameters of T3-125I binding to nuclear receptor, intracellular distribution of endogenous T3 and activities of alfa-GPD and ME were investigated. The association constant values (Ka) of nuclear receptor were increased after pretreatment with 7.5, 15 and 45 mg A tablets and were 1.07, 1.35 and 1.48 X 10(9) M-1 vs 0.85 X 10(8) M-1 value seen after P. The maximal binding capacity (MBC) values decreased after pretreatment with the same doses of A and were 0.044, 0.036 and 0.025 pmol T3/100 micrograms DNA vs. 0.065 pmol T3/100 micrograms DNA in P pretreated. Adrenaline pretreatment significantly increased the amount of endogenous T3 present in liver nuclei while the amount of T3 present in cytosol decreased. Activity of mitochondrial alfa-GPD was increased after 15 and 45 mg of A. Significant rise of activity of cytosol ME was seen only after pretreatment with 45 mg of A.     

Effect of triiodothyronine and thyroxine on mitochondrial alpha-glycerophosphate dehydrogenase activity and mitochondrial protein content of liver, muscle and brain of toad, Bufo melanostictus

The responsiveness of the adult toad to triiodothyronine (T3) and thyroxine (T4) was studied by measuring the mitochondrial alpha-glycerophosphate dehydrogenase activity and mitochondrial protein content of liver, muscle and brain of toad. Both T3 and T4 increased the alpha-GPD activity and mitochondrial protein content of liver and muscle of toad. The extent of increase in the alpha-GPD activity and mitochondrial protein content were more pronounced with T3 than with T4. Further that the muscle exhibited more alpha-GPD activity than liver, whenever liver showed greater mitochondrial protein content than that of muscle. Brain showed no significant change in the alpha-GPD activity and mitochondrial protein content. Injections of cycloheximide showed inhibition of T3 induced changes in liver and muscle. Injection of propylthiouracil also counteracted the T4 induced effects of liver and muscle.     

The influence of long-term melatonin administration on basic physiological and metabolic variables of young Wistar:Han rats

The question of effects of long-term melatonin (MEL) administration have not yet been explained sufficiently, especially its metabolic consequences in young persons and animals. The aim of the present study was to analyze the effects of MEL given during prolonged time (for 3 months) and chronically (for 6 months) at the dose of 4 μg/mL of tap water, on the selected metabolic and hormonal parameters in young female and male Wistar:Han (WH) rats. The weights of selected organs, tissues, body weight gains and food and water intake were registered. Six weeks aged rats were adapted to standard housing conditions and light regimen L:D=12:12 h, fed standard laboratory diet and drank tap water (controls) or MEL solution ad libitum; finally they were sacrificed after overnight fasting. Prolonged MEL administration decreased serum glucose concentration and increased triacylglycerol and malondialdehyde concentration/content in the liver in females. In males MEL increased concentrations of serum phospholipids, corticosterone and liver malondialdehyde. MEL treatment reduced the body weight in both sexes and weight of epididymal fat in males, without any alterations of food and water intake. Chronic MEL administration reduced serum glucose concentration and increased concentration/content of glycogen, triacylglycerol and cholesterol in the liver and glycogen concentration/content in heart muscle in males. In females, the significant rise of serum corticosterone concentration and liver malondialdehyde content was recorded. MEL significantly increased liver weight and decreased thymus weight in males. MEL administration increased temporarily water intake in males, body and epididymal fat weights were similar to that in controls. Body weight of MEL drinking females was reduced in the 1^st half of experiment only; the food and water intake did not differ from control group. The response in WH rats on MEL was more prominent as in the Sprague-Dawley strain (our previous studies). Male rats were generally more affected, probably due to higher daily and total consumption of melatonin.     

Metabolic effects of 3,5-dimethyl-3'-isopropyl-L-thyronine and 3,5,3'-triiodo-L-thyronine in the brain and liver of hypothyroid rats. Similarities and differences

The metabolic effects of 3,5-dimethyl-3'-isopropyl-L-thyronine (DIMIT) on subcellular activities in brain and liver, have been compared to those of T3. Thyroidectomized hypothyroid rats were treated for 10 days with DIMIT (8 micrograms/100 g/day) or T3 (0.25 microgram/100 g/day). In liver mitochondrial oxidative phosphorylation, succinate cytochrome c reductase activities and nuclear RNA polymerases I and II activities were restored to normal level by DIMIT as well as by T3 treatment. In brain T3 treatment normalized both nuclear and mitochondrial activities. On the other hand daily injection of DIMIT restored like T3 nuclear activities whereas that of brain mitochondria were unaffected. We have also examined the early effects of a single injection of T3 (2.5 micrograms/100 g) or DIMIT (80 micrograms/100 g), 20 minutes prior sacrifice. DIMIT is as active as T3 in stimulation of oxidative phosphorylation and succinate cytochrome c reductase activity in liver mitochondria. However DIMIT treatment does not affect the properties of brain mitochondria. On the basis of these observations, it is suggested that there is a tissue specificity of mitochondrial receptors to DIMIT administration as it was shown at the nuclear level.     

Induction of thyroid hormone in changing Na+K(+)-ATPase activity in different organs of toad, Bufo melanostictus

Single injection of T3, at the doses of 0.5 and 1 micrograms/g body weight, stimulated Na+K(+)-ATPase activity of crude liver homogenate of toad in a dose dependent fashion. Lowering the dose of T3 to 0.25 micrograms/g had no effect on the enzyme activity. T3 at the dose of 2 micrograms/g showed the same level of enzyme activity at par with that of 1 microgram/g. Na+K(+)-ATPase activity of muscle increased with T3 at the doses of 1 and 2 micrograms/g, but without any dose dependent manner while T3 at the doses of 0.25 and 0.5 micrograms/g remained unresponsive in changing the enzyme activity. T4, after 3 consecutive injections, increased the enzyme activity in liver with 1 and 2 micrograms/g and in muscle with 2 micrograms/g only while the other doses of T4 (0.25 and 0.5 micrograms/g in case of liver and 0.25, 0.5, and 1 micrograms/g in case of muscle) had no effect on the enzyme activity. Brain showed no alteration to Na+K(+)-ATPase activity with the same doses of T3 and T4. Cycloheximide counteracted the T3 induced rise in enzyme activity. The reduced level of Na+K(+)-ATPase activity in the PTU treated toad was recovered and brought to the control level after 3 consecutive injections of T4 at the dose of 1 microgram/g.     

Effects of clomiphene citrate on the pituitary gland in chronically estrogenized rat

Effects of clomiphene citrate (clomiphene) on the pituitary gland of chronically estrogenized ovariectomized rats were investigated. Estradiol-17 beta (E2) pellet implanted subcutaneously in castrated rats for 7 days caused significant increases in pituitary weight and serum prolactin (PRL) level but suppressed serum luteinizing hormone (LH) level. In the estrogenized rats about 40% of estrogen receptor (ER) found in whole pituitary cells (65 +/- 7 fmol/10 mg tissue) was observed in the nucleus, while 60% of ER was present in the cytosol fraction. A single injection of 5 micrograms E2 translocated cytosol ER immediately to nuclear compartment; amounts of ER found in cytosol and nuclear fractions were 16 +/- 1 and 37 +/- 4 fmol/10 mg tissue, respectively, at 1 h. However, the distribution of ER returned to the pre-injection level within 4 h. In the non-estrogenized castrated rats, the nuclear retention of ER was significantly longer than that in the estrogenized rats. A single administration of 200 micrograms clomiphene in the estrogenized rats, on the other hand, increased nuclear ER gradually. Nuclear ER reached the peak level at 4 h (62 +/- 5 fmol/10 mg tissue) and the level remained almost unchanged for 24 h. Cytosol ER decreased and reached a nadir at 4 h (4.3 +/- 0.3 fmol), and the replenishment of cytosol ER could not be detected for 24 h. Similar patterns of cytosol and nuclear ER following the clomiphene injection were also found in the castrated rats. The clomiphene administration in the estrogenized rats resulted in a significant reduction of the pituitary weight 48 h after the administration. The present results seem to show the antiestrogenic action of clomiphene in the pituitary gland.     

Maximum acute exercise tolerance in hyperthyroid and hypothyroid rats subjected to forced swimming

Thyroid dysfunction can compromise physical capacity. Here, we analyze the effects of hyperthyroidism and hypothyroidism on maximum swim time in rats subjected to acute forced swimming, as an indicator of anaerobic capacity. Animals were forced to swim against a load (5% of body weight) attached to the tail and were killed 48 hours after the last test. Hyperthyroid rats were treated with thyroxine (50 mug/100 g body weight, i. p. for 7 days). The hypothyroid group received 0.03% methimazole in the drinking water for 4 weeks. Thyroid state was confirmed by alterations in serum thyroid-stimulating hormone (TSH), triiodothyronine (T3), thyroxine (T4), and liver mitochondrial glycerol phosphate dehydrogenase (mGPD) activity. Hyperthyroid rats presented significantly lower visceral fat mass (VFM) and higher food intake (p<0.05) with unchanged body weight. Maximum swim time (MST), glycogen content (skeletal muscle and liver), and leptin levels were lower while corticosterone was higher (p<0.05). In hypothyroid rats body weight was lower (p<0.05), without changes in VFM. Tested at 7-day intervals, MST was lower for tests 2, 3, and 4 (p<0.05). Muscle glycogen was higher in extensor digitorum longus (EDL) and soleus (p<0.05), without changes in liver. Serum corticosterone was lower, while leptin was higher (p<0.05). These results suggest that in hyperthyroid and hypothyroid rats, thyroid hormones together with corticosterone and/or leptin may impair exercise capacity differently through its known effects on glycogen metabolism.     

Rapid elevation of rat serum prolactin concentration by cyclosporine, a novel immunosuppressive drug

Within one hr of the administration of cyclosporine to rats, there was a 4-fold elevation in the serum prolactin concentration. Doses of 0.12, 1.2, and 12 micrograms/100 g body weight cyclosporine significantly elevated the serum prolactin level. Higher doses, 120 or 1200 micrograms/100 g body weight cyclosporine resulted in small but insignificant elevations of the serum prolactin concentration. Bromocriptine, a dopamine agonist which inhibits prolactin release from the anterior pituitary, completely blocked the elevation in serum prolactin in response to cyclosporine alone. These data suggest that the ability of cyclosporine to suppress immune function may involve its ability to rapidly produce hyperprolactinemia.     

Iopanoic acid prevents spring premigratory increase in body weight of redheaded bunting Emberiza bruniceps

Effects of long term administration of iopanoic acid (IOP), a potent inhibitor of peripheral conversion of thyroxine (T4) into triiodothyronine (T3), on body weight and gonad development in intact and in thyroidectomized (Thx) redheaded bunting that received replacement therapy with T4 were studied. IOP prevented the premigratory increase in body weight observed in intact bunting (during March/April). In contrast to the Thx birds receiving T4 only, IOP administration in combination with T4 caused a significant decrease in body weight of Thx birds. The gonad development in intact and Thx birds that received IOP was significantly inhibited. Results suggest that IOP through an effective inhibition of peripheral T4-monodeiodination may prevent the spring premigratory fattening. Emphasis is given for an important role of T3 in the physiological preparations associated with migration.     

Thyroid hormone increases glyceraldehyde 3-phosphate dehydrogenase gene expression in rat liver

Livers from hypophysectomized rats had low levels of glyceraldehyde 3-phosphate dehydrogenase mRNA. Administration of L-triiodothyronine increased these levels over 20-fold. The peak response was seen 72 h after hormone administration. A half-maximal response was obtained with 5 micrograms of T3 per 100 g of body weight. Thus the expression of hepatic glyceraldehyde 3-phosphate dehydrogenase appears to be regulated by thyroid hormone.     

3,5-diiodo-L-thyronine increases resting metabolic rate and reduces body weight without undesirable side effects

Recently, it was demonstrated that 3,5-diiodo-L-thyronine (T2) stimulates the resting metabolic rate (RMR), and reduces body-weight gain of rats receiving a high-fat diet. The aim of this study is to examine the effects of chronic T2 administration on basal metabolic rate and body weight in humans. Two euthyroid subjects volunteered to undergo T2 administration. Body weight, body mass index, blood pressure, heart rate, electrocardiogram, thyroid and liver ultrasonography, glycemia, total cholesterol, triglycerides, free T3 (FT3), free T4 (FT4), T2, thyroid stimulating hormone (TSH) and RMR were evaluated at baseline and at the end of treatment. RMR increased significantly in each subject. After continuing the T2 treatment for a further 3 weeks (at 300 mcg/day), body weight was reduced significantly (p<0.05) (about 4 percent), while the serum levels of FT3, FT4 and TSH, were unchanged. No side effects were observed at the cardiac level in either subject. No significant change was observed in the same subjects taking placebo.     

The activity of antioxidant enzymes and the content of uncoupling protein-1 in the brown adipose tissue of hypothyroid rats: comparison with effects of iopanoic acid

The activity of antioxidant enzymes, copper-zinc superoxide dismutase (CuZnSOD), manganese superoxide dismutase (MnSOD) and catalase (CAT), as well as that of the mitochondrial FAD-dependent alpha-glycerophosphate dehydrogenase (alpha-GPD) in the rat interscapular brown adipose tissue (IBAT) were studied after the treatment with methimazole (MMI) for three weeks or with iopanoic acid (IOP) for five days. Besides, the mitochondrial concentration of uncoupling protein-1 (UCP-1) and the activity of catecholamine degrading enzyme monoamine oxidase (MAO) in the IBAT as well as the activity of the catecholamine synthesizing enzyme, dopamine beta-hydroxylase (DBH) in rat serum were examined. Judging by the significantly enhanced level of serum DBH, which is an index of sympathetic activity, and that of IBAT MAO, the increase in MnSOD and CAT activities in the IBAT of hypothyroid (MMI-treated) rats seems to be due to elevated activity of sympathetic nervous system (SNS). However, CuZnSOD activity is not affected by SNS. On the contrary, IOP, which is a potent inhibitor of T4 deiodination into T3 producing "local" hypothyroidism, did not change either SNS activity or activities of IBAT antioxidant enzyme. However, both treatments significantly decreased IBAT UCP-1 content and alpha-GPD activity suggesting that the optimal T3 concentration in the IBAT is necessary for maintaining basal levels of these key mitochondrial parameters.     

Effect of alcohol on the content of sex steroid receptors in the hypothalamus and hypophysis of male rats

In experimental dipsomania model (formation of physical dependence by method of intensive alcoholization) we have studied receptor binding of testosterone (T) and estradiol (E2) in the hypothalamus and pituitary body of mature male rats. Administration (at 10 and 16 h) of 25% ethanol-saline solution at a dose of 7.5 g/kg of body weight in the course of 5 days significantly decreased serum T level but did not change serum LH and FSH levels. Essential reduction of the nuclear androgen receptors in the preoptic-anterior hypothalamic area (POA), mediobasal hypothalamus (MBH) and adenohypophysis was noted in alcohol-treated rats. Unlike androgen receptors the number of the nuclear E2-binding sites in PaO was significantly increased in these males. Thus the results of the present paper demonstrate that multiple administration of ethanol stipulates deficit of serum T, androgen receptors in MBH and pituitary body that possibly results in separation of negative feedback mechanism between the gonads and pituitary body. Increase of specific binding of E2 to nuclear receptors in PoA might appear to explain feminization of alcohol-treated rats.     

Inhibition of type I and type II iodothyronine deiodinase activity in rat liver, kidney and brain produced by selenium deficiency.

Selenium deficiency for periods of 5 or 6 weeks in rats produced an inhibition of tri-iodothyronine (T3) production from added thyroxine (T4) in brain, liver and kidney homogenate. This inhibition was reflected in plasma T4 and T3 concentrations, which were respectively increased and decreased in selenium-deficient animals. Although plasma T4 levels increased in selenium-deficient animals, this did not produce the normal feedback inhibition on thyrotropin release from the pituitary. Selenium deficiency was confirmed in the animals by decreased selenium-dependent glutathione peroxidase (Se-GSH-Px) activity in all of these tissues. Administration of selenium, as a single intraperitoneal injection of 200 micrograms of selenium (as Na2SeO3)/kg body weight completely reversed the effects of selenium deficiency on thyroid-hormone metabolism and partly restored the activity of Se-GSH-Px. Selenium administration at 10 micrograms/kg body weight had no significant effect on thyroid-hormone metabolism or on Se-GSH-Px activity in any of the tissues studied. The characteristic changes in plasma thyroid-hormone levels that occurred in selenium deficiency appeared not to be due to non-specific stress factors, since food restriction to 75% of normal intake or vitamin E deficiency produced no significant changes in plasma T4 or T3 concentration. These data are consistent with the view that the Type I and Type II iodothyronine deiodinase enzymes are seleno-enzymes or require selenium-containing cofactors for activity.