Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dog thyroid contractile proteins are characterized by their ATPase activity at high KCl concentration. In the presence of Ca(2+), 80 nmol ATP are hydrolyzed per min per mg protein. This Ca(2+) -ATPase activity is inhibited by Mg(2+) but not influenced by sodium azide. The 26 000 molecular weight protein which is present in thyroid contractile protein preparations and the phosphorylation of which is stimulated by thyroid stimulating hormone (TSH) is suggested to be identical to the lysine-rich histones (H1). Indeed, radioactive thyroid H1 histones added to unlabelled thyroid slices copurify with the contractile proteins and migrate at the same level as the 26 000 molecular weight when submitted to electrophoresis in polyacrylamide sodium dodecyl sulfate gels of different acrylamide concentrations.
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PMID:Nature of the phosphorylated 26 000 molecular weight protein extracted from dog thyroid with contractile proteins. 15 30

Pituitary tumorigenesis occurs in a transgenic line of mice, alpha-T7, which carries a hybrid transgene composed of the 5' flanking region of the human glycoprotein hormone alpha-subunit gene (1.8 kb) linked to the coding region of the SV40 T-antigen gene (alpha-Tag). Tumor foci were identified within the anterior pituitary of both male and female transgenic mice. In addition to a parenchyma with hypertrophied endocrine cells, mostly of the gonadotrope lineage, we here report the unexpected presence of neural tissue within the anterior pituitary, either as foci as large as 1.0 mm in diameter or greater, or in delicate bundles ramifying amongst the granulated parenchymal cells. Areas richest in neural tissue frequently were associated with tumor tissue composed of giant cells of three varieties, all with electron-lucent cytoplasm and similar organellar distribution including small secretory granules (80-160 nm diameter). In type I cells, the secretory granules were aligned at the plasma membrane; in type II cells, the secretory granules were distributed throughout the cytoplasm; type III cells formed colloid-filled follicles and their secretory granules rarely exceeded 100 nm diameter. These giant cells frequently had bizarre pleomorphic nuclei intensely immunopositive for T-antigen and cytoplasm which was lightly immunopositive for alpha-subunit, and immunopositive either for the LH-beta or TSH-beta subunits. Neural tissue contacted the normal granulated parenchymal cells directly, i.e., without a basal lamina or any connective tissue intervening, but only rarely formed synaptoid junctions with these granulated cells. Synaptoid junctions containing round, smooth vesicles, as well as dense core vesicles, were numerous between the neural processes themselves and between the neural tissue and the giant cells of the tumor tissue. These data suggest that in alpha-T7 transgenic mice the giant cells represent highly transformed gonadotropes or thyrotropes, and that a neurotrophic factor may be expressed by these transformed pituitary parenchymal cells.
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PMID:Neural tissue within anterior pituitary tumors generated by oncogene expression in transgenic mice. 133 36

Mature rats were dosed with T3 by different routes and dose-levels at either 0.1 mg/kg for 14 days s.c. (Group A), 1 mg/kg for 3 alternative days i.p. (Group B), 5 mg/kg for 14 days p.o. (Group C), or with propylthiouracil (PTU 50 mg/day for 14 days p.o.-Group D). Measurement of cerebellar and striatal NA+,K+-ATPase activities showed that whereas Groups A, B and D were unaffected when compared with controls, there were 35-70% increases respectively in the activities of both molecular forms of the enzyme, alpha(+), high ouabain affinity, and alpha, low ouabain affinity, in Group C rat brains at the highest dose of T3 tested. Kidney Na+,K+-ATPase activity was also elevated (67% increase) in this group of animals showing significant changes in renal medullary tissue only. Acute elevation of brain dopamine levels by administration of an MAOI plus L-DOPA (50 mg/kg, 60 min) significantly elevated (20% increase) the activities of both molecular forms of Na+,K+-ATPase in corpus striatum. Treatment with L-tryptophan (50 mg/kg, 60 min) failed to produce any changes in the striatal activities. The possible relationship of increases in enzyme activities with T3 and increased brain monoamine function is discussed. Both plasma free T4(FT4) and total T4(TT4) were markedly depressed in all T3-treated rats. Although hypothalamic thyrotropin releasing hormone (TRH) concentrations were unaltered by any of the T3 treatments, pituitary thyroid stimulating hormone (TSH) concentrations were greatly diminished and it is thought that this may reflect a direct effect of T3 on TSH synthesis.
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PMID:Studies on the effect of chronic L-triiodothyronine (T3) treatment on brain Na+,K+-ATPase activity in the mature rat. 302 20

In hyperthyroidism, erythrocytes show decreased Na+,K+-ATPase activity, decreased [3H]ouabain binding capacity (an index of the number of sodium pumps) and decreased active sodium and potassium flux rates, with a high intracellular sodium concentration. As erythrocytes are non-nucleated and atypical cells, we have studied electrolyte status in thyroid disease using mixed leucocytes as well; the results obtained differed from those in erythrocytes. When compared with findings in healthy subjects, leucocyte Na+,K+-ATPase activity, [3H]-ouabain binding capacity, total and active rubidium (used instead of potassium) influx were all significantly increased in untreated hyperthyroidism and decreased in untreated hypothyroidism. In hyperthyroidism, there was also a decrease in plasma potassium, an increase in sodium efflux rate and efflux rate constant, but no significant changes in cell sodium and potassium concentrations. All these changes returned to normal in successfully treated patients. There was a significant correlation between these abnormalities of electrolyte status and thyroid disease status (as serum thyroid stimulating hormone and free thyroxine).
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PMID:Ion flux and Na+,K+-ATPase activity of erythrocytes and leucocytes in thyroid disease. 302 98

This study reports the effects of the administration of pharmacologic doses of vitamin A on multiple parameters of thyroid function. Vitamin A decreased total T4 and T3 levels. With vitamin A treatment, there was a marked increase in the percentage dialyzable T3 and T4 both in vivo and in vitro. The serum-free T3 and T4 levels as measured by dialysis were on the whole normal in vitamin A-treated rats. Following thyroidectomy, the total T4 levels were still decreased, suggesting that vitamin A produced its effects by increasing peripheral clearance of thyroxine. Vitamin A did not alter basal thyroid stimulating hormone (TSH) or its response to thyroid releasing hormone, suggesting a relatively normal hypothalamic-pituitary-thyroid axis in vitamin A-treated animals. Vitamin A may decrease tissue responsiveness to thyroid hormones as evidenced by the tendency to decreased Na-K-ATPase activity in the livers from vitamin A-treated rats and the decreased growth hormone response to T3 in GH3 pituitary cultures as shown in this study and by the decreased basal metabolic rate found after vitamin A in previous studies. Vitamin A decreased thyroid gland size and increases 125I thyroid uptake. In vitro, vitamin A enhanced T4 to T3 conversion in hepatic homogenates.
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PMID:Effect of vitamin A on the hypothalamo-pituitary-thyroid axis. 624 41

Hyperthyroidism in men is often treated with high doses of iodine-131 ((131)I), which may induce radiation side effects to patients and their environment. These therapeutic doses of (131)I could be decreased, if the (131)I uptake of the thyroid gland of the patients could be increased. Zinc sulphate has been considered to exercise a protective role by maintaining the cellular integrity of the thyroid under various pathological states. The aim of our study was to study in Wistar rats whether zinc sulphate can after treatment of the thyroid gland with (131)I: a) increase the uptake of (131)I in the thyroid and b) stabilize the function of the follicular cells. If such a stabilization finally exists in men we could have favorable results like fewer cases of hypothyroidism after (131)I treatment of hyperthyroidism. To carry out these investigations, rats were divided into four groups comprising of eight animals each. Group I animals served as normal controls. Group II animals received a dose of 3.7 MBq of (131)I. Group III animals were supplemented with zinc (227 mg/L of drinking water) and animals in Group IV were given (131)I together with zinc sulphate as above. Our results showed that in Group II, serum levels of tetra-iodo-thyronine (T(4)) and tri-iodo-thyronine (T(3)) decreased significantly as a function of time following (131)I treatment. An increase in the levels of serum thyroid stimulating hormone (TSH) was noticed one week after (131)I treatment, becoming less pronounced with time. In Group II, thyroid uptake at 2h and at 24h was significantly decreased. In the same Group biological half life (T(biol)) of (131)I in the thyroid gland, was significantly elevated four weeks after the administration of (131)I and decreased eight weeks after. In Group IV animals, zinc sulfate after four weeks, induced normalization of elevated serum TSH levels and a further increase in the T(biol) of (131)I. After eight weeks in these animals, serum T(3) became normal and TSH remained at normal levels. Thyroid (131)I uptake at 2 and 24 h was increased as compared to Group II. Group III animals showed some increase in the levels of Na(+)K(+)ATPase and type 1,5'-deiodinase (5'-DI) as compared to normal rats of Group I. In conclusion, this study suggests the protective potential of zinc sulphate in the disturbed after (131)I treatment, thyroid function, thyroid hormones and TSH while the (131)I uptake was reduced. Thus, if this result is further confirmed, zinc sulphate may show to be a promising radioprotective agent for the thyroid gland.
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PMID:Zinc sulphate following the administration of iodine-131 on the regulation of thyroid function, in rats. 1808 58

Exposure of rat thyroid FRTL-5 cells to high concentrations of thyroid stimulating hormone (TSH) for 24 hr in vitro activated (125)iodide but not ouabain-sensitive (86)Rb transport in the cells, whereas after 27 hr and above there were significant increases in the activity of both transporters. This was similar to results obtained in propylthiouracil-treated rats in vivo where, unlike the early reported increases in iodide transport, activation of thyroidal Na(+)K(+)-ATPase activity in thyroid membranes occurred around 24-48 hr following rises in serum TSH. These data confirm the presence of a Na(+)K(+)-ATPase in cultured rat FRTL-5 thyroid cells, which is activated several hours later than iodide accumulation by TSH stimulation. This pump is sensitive to the cardiac glycoside ouabain as well as other agents affecting intracellular Na(+) ion concentrations such as monensin and amiloride.
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PMID:Studies on the thyroid stimulating hormone-activated Na(+)K(+)-ATPase and iodide transporter in cultured rat thyroid cells and the effects of drugs. 2070 81

Tea is a rich source of polyphenolic flavonoids including catechins, which are thought to contribute to the health benefits of it. Flavonoids have been reported to have antithyroid and goitrogenic effect. The purpose of this study was to evaluate whether high doses of green and black tea have a harmful effect on thyroid physiology. Un-fractionated green and black tea extracts were administered orally to male rats for 30 days at doses of 1.25 g%, 2.5 g% and 5.0 g%. The results showed that green tea extract at 2.5 g% and 5.0 g% doses and black tea extract only at 5.0 g% dose have the potential to alter the thyroid gland physiology and architecture, that is, enlargement of thyroid gland as well as hypertrophy and/or hyperplasia of the thyroid follicles and inhibition of the activity of thyroid peroxidase and 5(')-deiodinase I with elevated thyroidal Na+, K+-ATPase activity along with significant decrease in serum T3 and T4, and a parallel increase in serum thyroid stimulating hormone (TSH). This study concludes that goitrogenic/antithyroidal potential of un-fractionated green tea extract is much more than black tea extract because of the differences in catechin contents in the tea extracts.
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PMID:Effect of different doses of un-fractionated green and black tea extracts on thyroid physiology. 2080 49

A case is presented of a rare complication of hyperthyroidism, known as thyrotoxic hypokalaemic periodic paralysis, in a man from Nepal. A 26-year-old Nepalese man, with known hypokalaemia, was referred to the clinical laboratory services for electrolyte analysis. Results showed Na(+) 120 mmol/l and K(+) 2.8 mmol/l, and he was prescribed potassium chloride. In fact, he had previously been receiving potassium supplementation periodically and his history revealed that he had experienced the same type of attack and was hospitalised 6 months earlier. He had profound tremor and was agitated and irritable during his visit to this hospital. Thyroid function testing showed high T3 (tri-iodothyronine) and T4 (thyroxine) with low thyroid stimulating hormone (TSH) concentration in the serum, indicating thyrotoxic hypokalaemic periodic paralysis. Treatment with neomercazole resulted in an improvement during the follow up visit. Hypokalaemia is believed to be a consequence of a massive shift due to increased sodium-potassium-adenosine triphosphatase (Na(+)K(+)ATPase ) pump activity in the presence of elevated thyroid hormones.
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PMID:Thyrotoxic hypokalaemic periodic paralysis in a man from Nepal. 2189 47

Certain epidemiological studies revealed correlation between hard water consumption (with high calcium) and thyroid size of the population, though the possible alterations in thyroid physiology upon calcium exposure are still inconclusive. Adult male Wistar strain rats were subjected to calcium treatment at the doses of 0.5g%, 1.0g% and 1.5g% calcium chloride (CaCl(2)) for 60 days. The parameters studied were - thyroid gland weight, histopathology, histomorphometry; thyroid peroxidase (TPO), 5'-deiodinase I (DI), sodium-potassium adenosine triphosphatase (Na(+)-K(+)-ATPase) activities; serum total and free thyroxine (tT4, fT4), total and free triiodothyronine (tT3, fT3), thyroid stimulating hormone (TSH) levels. Enlargement of thyroid with hypertrophic and hyperplastic changes, retarded TPO and 5'-DI but enhanced Na(+)-K(+)-ATPase activities, augmented serum total and free T4 and TSH but decreased total and free T3 levels and low T3/T4 ratio (T3:T4) were observed in the treated groups. All these findings indicate development of goitrogenesis upon exposure to excessive dietary calcium.
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PMID:Dietary calcium induced cytological and biochemical changes in thyroid. 2278 68


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