EC:3.6.1.3 - FACTA Search

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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)

The response of an established line of non-transformed adult rat liver epithelial cells (ARL 15) to thyroid hormone (T3) (3,5,3'-triiodothyronine) was characterized. Exposure of confluent monolayers to 1.10(-8) M T3 for 3 days increased O2 consumption (QO2) between 14-58%, ouabain-sensitive Rb+ uptake 26%, (Na+ + K+)-ATPase activity 32%, alpha-glycerophosphate dehydrogenase activity 103% and cytochrome oxidase activity 208%. The ARL 15 cells, maintained in continuous culture, therefore, exhibit the hallmarks of an authentic physiological response to thyroid hormone.
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PMID:The response of an established line of rat liver cells to thyroid hormone. 301 38

In the brain there are two isozymes of Na+-K+-ATPase differing in their catalytic subunits: alpha, indistinguishable from the kidney form of alpha, and alpha +, found in axolemma. The time course of the increase in each alpha during development was described by quantitating the abundance of each form, studied in unpurified membranes resolved by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, with specific antibodies and with fluorescein 5'-isothiocyanate. Both the alpha and alpha + subunits, quantitated with antibodies, increased 10-fold in abundance from 18 days gestation to 20 days of age, with alpha + increasing more rapidly than alpha early in development. A 10-fold increase in enzyme activity was also observed during this period. Using fluorescein 5'-isothiocyanate to quantitate the two alpha subunits, a similar increase in alpha + was observed with less of an increase in alpha. The ratio of alpha + to alpha increased from 0.75 at 18 days gestation to 3 at 3 days of age remaining at this ratio to 20 days of age. The possibility that thyroid hormone, a known regulator of brain Na+-K+-ATPase during development, differentially regulated the two forms was tested using 15-day-old hypothyroid rats. The abundance of both forms of alpha was similarly decreased: alpha + to 69% and alpha to 48% of control values. Na+-K+-ATPase activity was 70% of control. We conclude that both alpha and alpha + abundance increase in the brain during pre-and neonatal development and that the increase in both alpha subunits is regulated, directly or indirectly, by thyroid hormones.
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PMID:Developmental and thyroid hormone regulation of two molecular forms of Na+-K+-ATPase in brain. 301 31

Thyroidal induction of the plasma membrane Na,K-ATPase is a characteristic of mammalian tissues that exhibit a thermogenic response to this hormone. To facilitate analysis of the pathways mediating this response, we defined the conditions needed for reproducible thyroidal induction of this enzyme, as well as mitochondrial cytochrome c oxidase, in established cell lines in tissue cultures. In confluent monolayers of nontransformed mouse embryo fibroblasts (C3H/10T1/2), triiodothyronine modulated Na,K-ATPase and cytochrome c oxidase activities in a concentration- and time-dependent manner. Similar increases in Na,K-ATPase activity were obtained in other rodent embryo cells (SWISS/3T3 and NIH/3T3) and in human fibroblasts (WI-38). In contrast, neoplastic transformation of all of these cell lines resulted in loss of inducibility of Na,K-ATPase by thyroid hormone, regardless of the initiating mechanism (i.e. spontaneous, x-ray, chemicals, viruses).
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PMID:Loss of thyroidal inducibility of Na,K-ATPase with neoplastic transformation in tissue culture. 301 56

A continuous cell line derived from rat liver (ARL 15) has been identified that responds to thyroid hormone with a stimulation of active Na,K transport. Stimulation of ouabain-inhibitable K+ uptake, which is half-maximal at a T3 concentration of 1.4 X 10(-10) M, is accompanied by corresponding increases in passive Na+ influx and in passive K+ efflux. The enhancement of Na+ and K+ fluxes by T3 is shown to be accompanied by smaller and equivalent increases both in enzymatically measured Na,K-ATPase activity and in maximal ouabain-sensitive Na,K transport in the presence of the Na+ ionophore monensin. The demonstration that both passive Na+ influx and passive fractional K+ efflux are simultaneously increased by T3 supports the earlier suggestion that the stimulation of active Na,K transport by thyroid hormone is attributable, at least in part, to an enhancement of rate-limiting passive Na+ and K+ fluxes by an increase in membrane permeability.
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PMID:Stimulation of active Na+ and K+ transport by thyroid hormone in a rat liver cell line: role of enhanced Na+ entry. 302 15

The effect of increasing donor age on the susceptibility of human red blood cell Ca2+-ATPase activity to stimulation in vitro by thyroid hormone was studied in 26 normal subjects, aged 15-81 yr. Basal enzyme activity (no added thyroid hormone) was unaffected by donor age. Group analysis, young (less than or equal to 50 yr) vs. elderly (greater than 60 yr old), revealed a 23% decrease in responsiveness of the enzyme to L-T4 (P less than 0.001). Regression analysis confirmed an age-dependent decline in thyroid hormone stimulability of Ca2+-ATPase [r = -0.42 (T4 effect) and -0.38 (T3 effect); P less than 0.01]. Red cell membrane Na,K-ATPase activity was not affected by donor age. Plasma T4 and T3 concentrations in these normal subjects also did not change with age. Possible contributions of the following mechanisms to this age-correlated change in enzyme activity were examined: altered responsiveness to calmodulin of membrane Ca2+-ATPase; membrane content of endogenous calmodulin, endogenous plasma T4 and T3 concentrations, and plasma glucose concentrations. Calmodulin responsiveness is required for iodothyronine action on the enzyme, but the calmodulin responsiveness of cells from elderly donors was not significantly different from that of cells from younger donors (P greater than 0.10). There was no relationship between membrane immunoassayable calmodulin and donor age or membrane calmodulin and Ca2+-ATPase activity. There were positive correlations between donor plasma T4 level and basal enzyme activity (P less than 0.05) and between donor plasma T3 concentration and hormone-responsive Ca2+-ATPase (P less than 0.01), but these did not contribute to the age effect. Plasma glucose previously was found to modulate red cell Ca2+-ATPase activity, but did not correlate with decreased hormone responsiveness of the enzyme in elderly donors. In conclusion, we found that the susceptibility of human red cell Ca2+-ATPase to in vitro thyroid hormone stimulation declined significantly with advancing donor age. Several possible calmodulin-dependent mechanisms for this age-dependent change were excluded, and thus, we postulate that the altered hormone sensitivity of the enzyme is membrane phospholipid mediated.
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PMID:Donor age-dependent decline in response of human red cell Ca2+-ATPase activity to thyroid hormone in vitro. 303 Nov 21

The total ATPase activity of myosin and the values for the isozyme V1 have been measured in hearts from rats of different ages and with different levels of thyroid function. The contribution of V3 was calculated from the difference between total and V1 ATPase, neglecting the small contribution of V2. Hearts were quickly frozen after rapid removal from the animals in order to preserve the state of ATPase activity that existed in the intact animal, and ATPase activity was measured in thin sections of tissue by a microphotometric technique. In euthyroid hearts, although cAMP increases total myosin ATPase activity and the activity of V1, the cyclic nucleotide inhibits the ATPase activity of V3. In hearts from rats with developing hypothyroidism following thyroidectomy, the same occurs. After a sufficient period has elapsed after thyroidectomy for V1 to have practically disappeared, cAMP has no effect on ATPase activity, but the injection of thyroid hormone restores the effect. Total myosin ATPase activity is maintained relatively constant as the animal ages from 80 to 165 days and during the first 10-11 days following thyroidectomy even though the concentration of V1 is dropping. The explanation proposed for these observations is that myosin can exist in two different forms, only one of which can participate in the active generation of force. The transition between the two forms is regulated by a soluble factor that is itself controlled by the adrenergic system. The factor(s) involved in this regulatory mechanism is soluble and can be transferred between different thin sections cut from a frozen heart.
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PMID:Isozyme specific modification of myosin ATPase by cAMP in rat heart. 303 49

Diabetes was induced in rats by an intravenous injection of streptozotocin (65 mg/kg body wt), and animals were killed 8 wk later. Some animals were maintained in a diabetic state for 6 wk and then given 2 wk of insulin treatment in vivo. Myofibrils were isolated and ATPase activities measured. Mg2+-ATPase and Ca2+-stimulated ATPase activities were depressed in diabetic rat hearts in comparison to control; insulin treatment normalized these activities. The depression in myofibrillar ATPases was of gradual onset as no changes were detected 2 wk after inducing diabetes. Treatment of diabetic animals with thyroid hormone did not restore changes in myofibrillar ATPase activities. Marker enzyme activities did not reveal any detectable contamination by cardiac membranes. Mg2+-ATPase activity of myofibrillar preparations from control and diabetic hearts responded differently to N-ethylmaleimide modification. Furthermore, myofibrillar sulfhydryl reactivity to 5,5'-dithiobis(2-nitrobenzoic acid) was significantly depressed in diabetic preparations in comparison to control and insulin-treated diabetic animals. These results suggest that the defect in myofibrillar ATPase activities in chronic diabetes may be due to some modification of sulfhydryl groups.
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PMID:Mechanisms of the defect in cardiac myofibrillar function during diabetes. 315 18

The distribution of isomyosin in cardiac muscle cells in culture has been investigated with monoclonal antibodies and Ca2+-activated myosin ATPase cytochemical staining. With immunofluorescent studies using monoclonal antibodies to isomyosins V1 and V3, the cardiac myocytes grown in a serum-free and thyroxine (T4)-free medium for 7 days contained a predominant population of cells which were strongly reactive to anti-V3 antibody. A small population of myocytes in this culture exhibited weak or no reaction to anti-V3 antibody. When cultures were exposed to anti-V1 antibody, the predominant cardiac myocyte population showed little or no reactivity to this antibody, whereas a small population of the myocytes were strongly reactive. The myosin ATPase staining reaction of the positive myocyte population was significantly less pronounced than that of the V3-negative population which showed a strong reaction. The staining pattern changed dramatically after exposure of cultured myocytes to thyroid hormone for 7 days. Most of the cells were found to react strongly with anti-V1 antibody, while some cells showed little reactivity and some were not stained at all. A small number of cardiac myocytes in this culture showed little or no reactivity to anti-V1 antibody but were strongly reactive to anti-V3 antibody. The predominant anti-V1-positive myocyte population exhibited strong myosin ATPase staining as compared to a smaller V3-positive myocyte population which showed very weak staining. The cytochemical results of ATPase staining in cardiac myocytes agreed well with ATPase activity as determined on pyrophosphate gels containing isomyosin derived from cultured cardiac myocytes with or without T4. This study has demonstrated that cultured myocytes contain a small population of muscle cells which is not responsive to thyroid hormone or to the lack of it.
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PMID:Distribution of isomyosin in cultured cardiac myocytes as determined by monoclonal antibodies and adenosine triphosphatase activity. 315 36

Hypothyroidism was induced in rats by treatment with propylthiouracil through the mother's milk throughout the suckling period followed by surgical thyroidectomy without use of radioiodine. The growth of these animals was considerably retarded and their light-dark discriminative operant learning ability was also significantly decreased. Replacement therapy with thyroxine to maintain its normal serum concentration was effective for continuing normal growth and development of learning ability. Therefore, these hypothyroid rats are a useful model of congenital hypothyroidism. Biochemical studies showed that the inhibition of cerebral Na,K-ATPase and succinic dehydrogenase activities detected in early postnatal life in these hypothyroid rats was transient and that normal activities of these enzymes were later regained in adult rats. However, the activity of 2',3'-cyclic nucleotide 3'-phosphohydrolase and the brain myelin remained low throughout life unless thyroxine was administered. Though a critical correlation between biochemical parameters and learning ability is still uncertain, these results suggest that the formation of myelin in the neonatal period is at least dependent on thyroid hormone and would play an important role in mental development.
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PMID:An appropriate model for congenital hypothyroidism in the rat induced by neonatal treatment with propylthiouracil and surgical thyroidectomy: studies on learning ability and biochemical parameters. 339 29

The role of the rat liver plasma membrane in the regulation of uptake and subsequent deiodination of thyroxine (T4) or the biologically active thyroid hormone 3,3',5-triiodothyronine (T3) was investigated. Here we report on the production of monoclonal antibodies raised against rat hepatocytes. Two antibodies were selected. Antibody ER-22 did bind to a Mr 52,000 membrane protein and inhibited the 1- and 5-min uptake of both T4 and T3 by primary cultured rat hepatocytes in a dose-dependent fashion. As the uptake of T4 and T3 depends on the presence of a sodium gradient over the plasma membrane, the inhibitory potency of ER-22 on the Na+,K+-ATPase activity was investigated. No inhibition of the uptake of 86Rb+ could be determined, indicating that antibody ER-22 is not directed against the Na+,K+-ATPase but probably the carrier protein itself. Clearance of T3 from the medium and concomitant iodide production by cultured rat hepatocytes during a 20-h incubation in the presence of ER-22 were both inhibited by 50% with respect to a control incubation in the absence of monoclonal antibody, pointing to the importance of carrier-mediated transport in cellular uptake and metabolism of T3. A second monoclonal antibody did bind to two other plasma membrane proteins but did not inhibit transport of thyroid hormone.
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PMID:Inhibition of iodothyronine transport into rat liver cells by a monoclonal antibody. 351 12

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