Characterization of thyrotropin-induced increase in iodothyronine monodeiodinating activity in mice

To further characterize the effect of TSH administration on thyroid iodothyronine monodeiodinating activity, we have evaluated the in vitro conversion of T4 to T3 (outer ring deiodination) and T3 to 3,3'-diiodothyronine (T2; inner ring deiodination) by mouse thyroid, liver, and kidney homogenates, comparing tissues from TSH-treated mice (0.1-200 mU bovine TSH, ip, for 1-3 days) with tissues from saline-treated controls. The in vitro conversion activity was studied in the presence of 1-20 mM dithiothreitol; most of the studies were carried out at 4 mM. Studies were carried out at optimal pH 6.5 for outer ring and 7.8 for inner ring deiodination. The iodothyronine monodeiodinase in mouse thyroid is similar to the ones in liver and kidney. It is heat labile (inactivated at 56 C for 5 min), inhibited by propylthiouracil (0.2 mM) and ipodate (0.2 mM), and unaffected by methimazole (up to 20 mM), ascorbate (up to 0.1 M) or KI (up to 20 mM). The mean +/- SE baseline rates of T4 to T3 and T3 to T2 conversion were 100 +/- 6.3 and 56.5 +/- 2.9 pmol/mg thyroid protein X 30 min at 37 C, respectively. A significant increase in each conversion activity was found after TSH treatment (0.2 U, ip, daily for 3 days); T4 to T3 conversion rose to 282 +/- 15.4, and T3 to T2 increased to 153 +/- 7.4 pmol/mg thyroid protein (P less than 0.001). A 12.8% increase in thyroid weight was found in the TSH-treated group (P less than 0.03 compared with saline control group). Similar but less marked increased in monodeiodinating activities were seen in the liver. A minimal but significant increase in inner ring monodeiodination with no significant increase in T4 to T3 converting activity was found in kidney, which, in the mouse, has markedly less outer ring deiodinase than liver or thyroid. The iodothyronine monodeiodinating activities did not increase until 12 h in thyroid and 48 h in liver after the first dose of TSH. Significant increases in T4 to T3 and T3 to T2 conversion were seen with doses of TSH as low as 0.1 mU (ip, daily for 3 days), and there was a linear dose-response thereafter. The decay of the increased iodothyronine monodeiodinating activities after a single dose of TSH (0.2 U) appeared to be linear, with a decay t 1/2 of 1.3 days for T4 to T3 conversion and about 1.0 day for T3 to T2 conversion.(ABSTRACT TRUNCATED AT 400 WORDS)     

The effect of fasting on plasma cyclic adenosine-3', 5'-monophosphate in rheumatoid arthritis

Cyclic adenosine-3', 5'-monophosphate (cAMP) may influence important mechanisms in the inflammatory process, and fasting has been claimed to be clinically beneficial in rheumatoid arthritis (RA). A study was therefore designed to measure the concentrations of plasma cAMP in RA patients not undergoing drug treatment during a control and a fasting period. Twelve female RA patients were hospitalized for two 14-day periods and investigated in a crossover study. Clinical and laboratory variables of inflammatory activity were assessed during both periods. During the control period the concentrations of cAMP in plasma were slightly below the lower normal limit, with no significant change throughout the period. The clinical and laboratory variables of inflammatory activity were unchanged during the same period. In the fasting period, the prefasting level of plasma cAMP was significantly higher than on the corresponding day in the control period. During 7 days of total fasting the plasma cAMP concentrations decreased significantly. The clinical and laboratory variables of inflammatory activity decreased significantly from the start to the end of fasting. High prefasting plasma cAMP concentrations were associated with improvement in clinical inflammatory activity. A decrease in plasma cAMP concentrations during fasting in RA patients is in contrast to the findings in obese and healthy subjects previously reported.     

Induction of type II T4-5'-monodeiodinase activity in brown adipose tissue in fasted mice

In order to study the effect of starvation on brown adipose tissue (BAT) type II 5'-monodeiodinating activity (5'MDI), type II 5'MDI was measured in vitro in the presence of 20 mM dithiothreitol, 1 mM propylthiouracil, 2 nM thyroxine (T4) and appropriate amounts of 600 X g infranatant of BAT from fed control or 3 day fasted mice, with or without daily T4 replacement (1.2 micrograms/100 g bw) during starvation. I- released from 125I-T4 was measured by ion-exchange column chromatography. Activity of BAT 5'MDI was markedly elevated in the 3 day fasted group (133 +/- 28 fmol I-/h per mg protein vs. 26 +/- 6.4; p less than 0.05). Kinetic studies using BAT infranatant suggested that fasting-induced activity is associated with a similar change in the Vmax, but no demonstrable change in apparent Km of T4 monodeiodination. T4 replacement during fasting, which normalized both serum T4 and T3 in fed and 3 day fasted groups, did not stop the increase of BAT 5'MDI in the fasted group (p less than 0.01). The data suggest that: (1) the fasting-induced increase in BAT 5'MDI is due mainly to the changes in capacity rather than the affinity of the enzyme, and (2) the fasting-induced increase in BAT 5'MDI is not mediated entirely through changes in serum thyroid hormone concentration.     

Influence of fasting and refeeding on 3,3',5'-triiodothyronine metabolism in man

To determine the influence of prolonged fasting and refeeding on rT3 metabolism in man, five euthyroid obese subjects underwent a 13-day fast, followed by a refeeding period. Each patient received an iv dose of 25 muCi [125I]rT3 during the fed control period, on days 7 and 13 of the fast, and on the fourth day after refeeding with a regular diet. Serial blood and urine samples were obtained to determine serum rT3 clearance and production rates and the urinary tracer rT3 deiodination fraction. Significant increases in serum rT3 values were noted by day 7 and remained elevated for the duration of the fast (P less than 0.01). Normalization of rT3 levels occurred after 4 days of refeeding. Both 7 and 13 days of fasting decreased rT3 clearance [132.6 +/- 8.3 L/day (P less than 0.001) and 132.2 +/- 9.5 L/day (P less than 0.001), respectively] without changing rT3 production (36.8 +/- 5.3 and 33.0 +/- 3.7 nmol/D, respectively) compared to control values (207.0 +/- 10.9 L/day and 31.8 +/- 3.8 nmol/day, respectively). Refeeding did not restore rT3 clearance (151.2 +/- 6.9 L/day; P less than 0.002), but significantly reduced blood rT3 production (18.4 +/- 3.8 nmol/day; P less than 0.003). The fractional deiodination of rT3 was significantly reduced on day 7 (42.5 +/- 4.6%; P less than 0.01) and day 13 (41.9 +/- 3.7%; P less than 0.01) of fasting compared to the control value (69.2 +/- 2.8%), while refeeding only partially restored deiodination to baseline (48.4 +/- 5.1%; P less than 0.04). The clearance of rT3 was highly dependent on the fractional deiodination rate (r = 0.83; P less than 0.001). Although rT3 production remained constant during fasting, reduced rT3 production was seen on the fourth day of refeeding. This unique observation explained the fall in serum rT3 to prefasting levels after 4 days of refeeding when rT3 clearance was still inhibited. This study, in context with previous investigations, indicates that T4 conversion to circulating T3 and rT3 in fasting is a highly complex and multifaceted process requiring further investigation to elucidate the mechanism responsible for these alterations.     

Effects of thyrotropin and cholera toxin on the thyroidal adenylate cyclase-adenosine 3',5'-monophosphate system

The present experiments examined the relationship between cholera toxin and TSH stimulation of the adenylate cyclase system in bovine thyroid tissue. Preincubation of thyroid slices for 20 min at 4 C with a maximal concentration of cholera toxin (100 microgram/ml) did not impair the subsequent stimulation of cAMP by submaximal amounts of TSH (1 mU/ml) during a 5-min incubation at 37 C. Incubation of cholera toxin or TSH with mixed gangliosides, followed by the addition of thyroid slices resulted in inhibition of the cholera toxin but not the TSH stimulation of cAMP formation. Previous exposure of thyroid slices to TSH induced refractoriness to subsequent stimulation of cAMP formation by TSH, but the response to cholera toxin was unchanged. NAD is necessary for cholera toxin, but not TSH, stimulation of adenylate cyclase. In the absence of NAD, cholera toxin inhibited the effect of maximal concentrations of TSH and prostaglandin E1 on adenylate cyclase activity but had no effect on NaF stimulation. In the presence of NAD, the stimulation of adenylate cyclase activity of bovine thyroid plasma membranes by a maximal amount of TSH was not influeced by maximal amounts of cholera toxin. Cholera toxin had a biphasic action on the binding of [125I]iodo-TSH, with low concentrations enhancing and high concentrations inhibiting binding. TSH augmented the binding of [125I]iodo-cholera toxin over the range of 1-100 mU/tube. Cholera toxin at 10 microgram/ml maximally inhibited binding. In addition to the requirement for ribosylation of adenylate cyclase, the present results indicate that the mechanisms of action of TSH and cholera toxin on cAMP formation are different.     

Detection of Bacteriophage T4- and T5-Coded Transfer RNAs

A hybridization procedure using mixtures of radioactive aminoacyl-tRNA is described for detecting new phage-induced tRNA species. Five phage-coded tRNA species have been identified from T4 phage infected bacteria and 14 from T5 phage infected cells.     

Dissection of the enhancer activity of beta-globin 5' DNase I-hypersensitive site 2 in transgenic mice.

The beta-globin locus control region (LCR) consists of four erythroid-specific DNase I-hypersensitive sites, which are necessary for high-level expression of the beta-like globin genes in erythroid tissues. One of these sites, designated 5'HS-2, functions as an erythroid-specific enhancer element in transfection and transgenic mouse experiments. Recent transfection experiments and studies of DNA-protein interactions have localized the 5'HS-2 enhancer to 18 nucleotides that contain a binding site for both the erythroid-specific factor nuclear factor erythroid 2 (NFE-2) and for activator protein 1 (AP-1). To define the sequences necessary for in vivo enhancer activity, several deletion mutants of 5'HS-2 were linked to the human beta-globin gene and their activity was tested in transgenic mice. Three upstream fragments of 5'HS-2 [341, 374, and 412 base pairs (bp)], each of which contained the NFE-2/AP-1 sequences, resulted in beta-globin expression at levels equivalent to or higher than those observed with the entire 732-bp 5'HS-2 fragment. In contrast, a 358-bp downstream portion of 5'HS-2, which lacked the NFE-2/AP-1 sequences, resulted in beta-globin expression at the low levels seen with the beta-globin gene alone. Removal of the NFE-2/AP-1 sequences by a 67-bp internal deletion resulted in similar low levels of beta-globin expression. A 100-bp 5' fragment that contained the NFE-2/AP-1 sequences resulted in beta-globin expression that was higher than the beta-globin gene alone but lower than the entire 5'HS-2 fragment or the three larger upstream fragments. These studies demonstrate that the NFE-2/AP-1 sequences are essential for enhancer activity of 5'HS-2 but that other sequences are required for full activity in vivo.     

Lack of effect of 3,3'5'-triiodothyronine (reverse T3) on cardiac function in the rabbit

In a recent study, we have shown that the antiarrhythmic drug, amiodarone caused significant elevations of serum rT3 levels and inhibition of the peripheral conversion of T4 to T3 (Kannan et al. Endocrinology 115:1710-1716, 1984). In this study we have examined whether or not rT3 has a direct effect on the monodeiodinase enzyme activity and electropharmacology of the rabbit myocardium. Six male New Zealand White rabbits were administered 50 ug rT3 (a dose about 100 times the daily rT3 production rate) i.p. for 5 days, while the control group received saline. Serum T4, T3 and rT3 concentrations, and myocardial as well as liver and kidney 5'monodeiodinase enzyme activities were measured. Surface ECG and electrophysiological parameters in the atrial, ventricular and sinoatrial node in control and rT3 groups were obtained. Surface ECG did not show any difference in heart rate, RR, PQ, QRS or QT intervals in the two groups. Reverse T3 administration did not produce any significant alterations in APA, MRP, Vmax, APD90 and ERP of atrial and ventricular muscle. Despite administration of a massive dose of rT3, serum levels of T3 and T4 were unchanged as compared to control group. Reverse T3 administration did not produce any alterations in the 5'monodeiodinase activities in the myocardium, liver and kidney. The studies suggest that rT3 does not appreciably affect myocardial function and that the effects of amiodarone on the heart occur via mechanisms other than its ability to cause an increase in serum rT3 levels.     

The effect of thyroid dysfunction and fasting on placenta inner ring deiodinase activity in the rat

The placenta contains iodothyronine 5-deiodinase activity (P5-Dase) that probably acts on iodothyronines in the fetal circulation to convert T4 to rT3 and T3 to 3,3'-T2. Since thyroid status and fasting have profound effects on iodothyronine deiodinases in other tissues, the present studies were performed to determine if these perturbations affected P5-Dase. Control and treated rats were mated and killed near term on the 20th day of gestation. P5-Dase was determined in placenta homogenates enriched with dithiothreitol by measuring the conversion of T4 to rT3. In four of five studies, P5-Dase was similar in dams that underwent thyroidectomy (Tx) on day 7 of gestation and sham Tx dams. P5-Dase was not altered in dams that were treated with methimazole (MMI) to induce maternal and fetal hypothyroidism. Treatment of dams with supraphysiological doses of T4, beginning on the seventh day of gestation, did not significantly affect P5-Dase. In three of four studies, P5-Dase was similar in fed dams to values in dams fasted for the last 5 days of pregnancy. Placenta iodothyronine 5'-deiodinase activity (P5'-Dase) was also measured in some studies. P5'-Dase was not decreased in Tx rats and was modestly decreased in MMI-treated rats. However, the effect of MMI was not reversed by the administration of supraphysiological doses of T4, Tx, MMI treatment, and fasting all decreased hepatic T4 5'-deiodinase activity in pregnant rats. These results strongly suggest that thyroid status and fasting do not alter P5-Dase activity.     

The in vitro and in vivo antimalarial activity of some Mannich bases derived from 4-[7'-bromo (and chloro)-1',5'-naphthyridin-4'-ylamino]phenol and 4-(7'-trifluoromethylquinolin-4'-ylamino)phenol

A series of di-Mannich bases derived from 4-[7'-bromo (and chloro)-1',5'-naphthyridin-4'-ylamino]phenol and 4-(7'-trifluoromethylquinolin-4'-ylamino)phenol were assayed for activity against chloroquine-sensitive and chloroquine-resistant isolates of cultured Plasmodium falciparum using the inhibition of uptake of radiolabelled hypoxanthine. A number of the 4-(7'-trifluoromethylquinolinyl-amino)phenols showed statistically superior activity to chloroquine and amodiaquine against both isolates. Analysis of the antimalarial activity of some of these compounds against Plasmodium berghei in mice following oral administration again demonstrated activity equal or superior to that of the established antimalarials against a chloroquine-sensitive strain, and in some cases appreciably superior activity against a chloroquine-resistant strain.     

Increased thyroidal T4 to T3 conversion in autonomously functioning thyroid adenoma: from euthyroidism to thyrotoxicosis

Aim

The aim was to investigate whether the intrathyroid conversion of T4 to T3 in autonomously functioning thyroid adenoma (AFTA) tissue could influence serum T3 levels and suppression of TSH, especially in patients with borderline thyroid function.

Patients and methods

In ten patients with AFTA, thyroidal conversion of T4 to T3 was investigated in nodular and paranodular, TSH-suppressed tissue. All patients had normal serum T4 and suppressed TSH. Serum T3 was normal in six, and borderline or slightly increased in four. AFTA and paranodular tissues were surgically removed and frozen at −70 °C, then homogenized in a glass homogenizer, centrifuged at 100,000 × g, and particulate fraction collected as a pellet. Analysis mixture consisted of thyroid enzyme suspension in 50 μmol/L TRIS buffer with 5 μmol DTT and 200 μL 1.3 μmol T4. Incubation was performed at 37 °C and the generation of T3 measured after 5, 10, 20 and 40 minutes respectively.

Results

T3 production (pmol/mg protein) was significantly higher in AFTA than in paranodular tissues (8.8 ± 1.2/Mean ± SE/vs. 1.8 ± 0.2; p < 0.01), and excessively high (9.8, 14.1, 14.2 and 15.0) in four patients with borderline or slightly supranormal serum T3. A significant correlation was found between serum T3 concentrations and T3 generation (T4 conversion) in AFTA tissues.

Conclusion

Results suggest that increased thyroidal T4 to T3 conversion in AFTA tissue could be involved in an increased delivery of T3, increased serum T3 and suppressed serum TSH, particularly in patients with the disease evolving from euthyroid to an early hyperthyroid phase.     

KClO(4) inhibits thyroidal activity in the larval lamprey endostyle in vitro

An in vitro experimental system was devised to assess the direct effects of the goitrogen, potassium perchlorate (KClO(4)), on radioiodide uptake and organification by the larval lamprey endostyle. Organification refers to the incorporation of iodide into lamprey thyroglobulin (Tg). Histological and biochemical evidence indicated that endostyles were viable at the termination of a 4h in vitro incubation. A single iodoprotein, designated as lamprey Tg, was identified in the endostylar homogenates by polyacrylamide gel electrophoresis and Western blotting. Lamprey Tg was immunoreactive with rabbit anti-human Tg serum and had an electrophoretic mobility similar to that of reduced porcine Tg. When KClO(4) was added to the incubation medium, both iodide uptake and organification by the endostyle were significantly reduced relative to controls as determined by gamma counting, and gel-autoradiography and densitometry, respectively. Western blotting showed that KClO(4) significantly lowered the total amount of lamprey Tg in the endostyle. Based on the results of this in vitro investigation, we conclude that KClO(4) acts directly on the larval lamprey endostyle to inhibit thyroidal activity. These data support a previous supposition from in vivo experimentation that KClO(4) acts directly on the endostyle to suppress the synthesis of thyroxine and triiodothyronine, resulting in a decrease in the serum levels of these two hormones.     

The effect of modified fasting on blood pressure and sympathetic activity: a correlation?

The effect of a low calorie diet (200 kcal/0.8 MJ) composed of 50 per cent glucose and 50 per cent protein was studied on blood pressure and sympathetic activity in eight normotensive obese subjects. The study lasted 21 days; during the first seven days (period I) a weight maintaining diet was given; this was followed by 14 d (period II) of modified fasting (200 kcal/0.8 MJ). Sodium and potassium intakes of 20 and 80 mmol per d respectively were maintained constant throughout the study. In period I blood pressure decreased slightly until day 5; this occurred concomitantly with a marked natriuresis. Thereafter blood pressure and sodium excretion remained stable. No significant change was observed in the urinary excretion of total catecholamines, noradrenaline and 4-hydroxy-3-methoxy mandelic acid. From the start of period II blood pressure decreased markedly, together with a significant decrease in the urinary excretion of the catecholamines and 4-hydroxy-3-methoxy mandelic acid. Both blood pressure and urinary excretion of catecholamines and 4-hydroxy-3-methoxy mandelic acid stabilized after day 7 of period II. These changes preceded the maximal sodium diuresis of severe calorie restriction. The results suggest a primary role for the sympathetic system in the hypotensive effect of short term calorie deprivation although some influence of natriuresis cannot be excluded.     

The in vitro and in vivo antimalarial activity of some Mannich bases derived from 4-(7'-trifluoromethyl-1',5'-naphthyridin-4'-ylamino)phenol, 2-(7'-trifluoromethyl-quinolin-4'-ylamino)phenol, and 4'-chloro-5-(7'-trifluoromethylquinolin-4'-ylamino)biphenyl -2-ols.

A series of di-Mannich base derivatives (4 and 5) from 4-(7'-trifluoromethyl-1',5'-naphthyridin-4'-ylamino)phenol and 2-(7'-trifluoromethylquinolin-4'-ylamino)phenol, respectively, and mono-Mannich base derivatives (6) from 4'-chloro-5-(7'-trifluoromethylquinolin-4'- ylamino)biphenyl-2-ol were assayed for activity against the chloroquine-sensitive (FCQ-27) isolate of cultured Plasmodium falciparum using the inhibition of uptake of radiolabelled hypoxanthine. All seven di-Mannich base derivatives (5) revealed a higher activity than chloroquine, whereas the di-Mannich base derivatives (4) were slightly less active (with some derivatives more active and some less active than chloroquine). The mono-Mannich base derivatives (6) were less active than chloroquine. Comparative tests of selected compounds of (4 and 5) using a morphological assay revealed no significant differences in activity between the chloroquine-sensitive (FCQ-27) and chloroquine-resistant (K-1) isolates. Selected di-Mannich bases (4 and 5) and the mono-Mannich bases 5-7'-bromo (and 7-trifluoromethyl)-1',5'-naphthyridin-4'-ylamino)-3-(t- butylaminomethyl)-4'-chlorobiphenyl-2-ols (7, X = Br, CF3) markedly suppressed parasitaemia in Plasmodium vinckei vinckei infected mice when administered (i.p.) in a single dose of 200 mg kg-1.