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)

In this study, plasma thyroxine, contractile and histochemical (adenosinetriphosphatase and NADH) characteristics of soleus (SOL), medial gastrocnemius (MG), and extensor digitorum longus (EDL) were examined in 140-day-gestation fetal sheep and in 2-, 5-, and 30-day-old lambs and adult ewes. Electrophoretic separation of myosin heavy chains was also done on all muscles and the diaphragm. There were no differences in the twitch contraction and relaxation times of MG and EDL at the different ages; in contrast SOL contraction times were significantly shorter in the fetus and newborn than in the adult. Fast glycolytic fibers first appeared in EDL, MG, and diaphragm at 5, 30, and 5 days after birth, respectively. The proportion of slow oxidative fibers decreased after birth and with postnatal development in EDL, whereas they increased in MG and diaphragm. Plasma thyroxine concentrations were higher in the fetus and day-old lambs than in 2-, 5-, and 30-day-old lambs or adult sheep. It is suggested that contractile specialization of the fast-twitch diaphragm, MG, and EDL is largely achieved in utero and is probably mediated by thyroid hormone. In contrast, SOL changed postnatally, probably influenced by the altered neural drive.
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PMID:Developmental changes in hindlimb muscles and diaphragm of sheep. 141 4

To examine the signals regulating cardiac growth and molecular structure of subcellular organelles, cardiac hypertrophy was induced in rats by constriction of the abdominal aorta for 12-13 wk or by treatment with a carnitine palmitoyltransferase I inhibitor, etomoxir (12-15 mg/kg body wt) for 12-13 wk. In contrast to pressure overload, etomoxir redistributed the myosin isozyme population from V3 to V1 and increased the sarcoplasmic reticulum (SR) Ca(2+)-stimulated ATPase activity. When rats with pressure-overloaded hearts were treated with etomoxir, the cardiac hypertrophy was increased whereas the shift in myosin isozymes from V1 to V3 was prevented and the depression in SR Ca(2+)-stimulated ATPase activity was reversed. Plasma thyroid hormone and insulin concentrations were not altered but triglyceride concentrations were reduced in etomoxir-treated rats with pressure overload. The data demonstrate a dissociation between cardiac muscle growth and changes in subcellular organelles and indicate that a shift in myocardial substrate utilization may represent an important signal for molecular remodeling of the heart.
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PMID:Modification of subcellular organelles in pressure-overloaded heart by etomoxir, a carnitine palmitoyltransferase I inhibitor. 153 68

Hepatic microsomes and isolated hepatocytes in short term culture desulfate T3 sulfate (T3SO4). We, therefore, wished to determine whether T3SO4 could mimic the action of thyroid hormone in vitro. T3SO4 had no thyromimetic effect on the activity of Ca(2+)-ATPase in human erythrocyte membranes at doses up to 10,000 times the maximally effective dose of T3 (10(-10) mol/L). In GH4C1 pituitary cells, T3SO4 failed to displace [125I]T3 from nuclear receptors in intact cells or soluble preparations. Thus, T3SO4 was not directly thyromimetic in either an isolated human membrane system or a pituitary cell system in which nuclear receptor occupancy correlates with GH synthesis. Thyroid hormones inhibit [3H]glycosaminoglycan synthesis by cultured human dermal fibroblasts, and T3SO4 displayed about 0.5% the activity of T3 at 72 h. Human fibroblasts contained roughly the same level of microsomal p-nitrophenyl sulfatase activity as that previously observed in hepatic microsomes. Propylthiouracil (50 mumol/L) did not affect the action of T3SO4, suggesting that deiodination was not important for this activity of T3SO4. Thus, it appears T3SO4 has no intrinsic biological activity, but, under certain circumstances, may be reactivated by desulfation.
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PMID:Studies on the biological activity of triiodothyronine sulfate. 153 27

The effect of thyroid hormone (L-tri-iodothyronine; T3) on the cytosolic free Ca2+ concentration ([Ca2+]i) in L6 myotubes was studied at rest and during activation to explore the possible mediating role of [Ca2+]i in the T3-induced net synthesis of fast-type sarcoplasmic reticulum (SR) Ca(2+)-ATPase. The mean [Ca2+]i at rest was approx. 115 nM in myoblasts, control myotubes and T3-treated myotubes. Therefore it is unlikely that the T3-induced elevation of Ca(2+)-ATPase levels is mediated by [Ca2+]i changes. To investigate the influence of the 4-fold higher Ca(2+)-ATPase levels in T3-treated myotubes (compared with controls) on [Ca2+]i, interventions with caffeine (10 mM) and a high extracellular K+ concentration ([K+]o) (30 mM) were applied which initially mobilize Ca2+ predominantly from the SR. The results showed a lower (caffeine) or not significantly different (high [K+]o) increase in [Ca2+]i in T3-treated myotubes compared with controls. No rise in [Ca2+]i was found in myoblasts with caffeine or high [K+]o. The role of [Ca2+]i in the regulation of Ca(2+)-ATPase levels was investigated by varying [Ca2+]i through exposure of cells to different concentrations of extracellular Ca2+ (0.2-1.8 mM) and ionomycin (0.1-0.25 microM). At subnormal [Ca2+]i (55 nM) the T3-induced net synthesis of Ca(2+)-ATPase was virtually abolished, and at supranormal [Ca2+]i (195 nM) it was greatly depressed. Intermediate stimulation of net Ca(2+)-ATPase synthesis was found at [Ca2+]i of 95 and 165 nM, with an optimum at approx. 125 nM. Similar but less pronounced effects were found for the basal Ca(2+)-ATPase levels. In contracting primary rat myotubes, Ca(2+)-ATPase levels were significantly lower than in tetrodotoxin-arrested myotubes. The same results were obtained in the presence of T3. Since the mean [Ca2+]i in contracting cells is higher than in resting cells, these data agree with those obtained in the L6 cells with ionomycin. A major conclusion of this study is the existence of a [Ca2+]i optimum, near resting levels, for the expression of the fast-type Ca(2+)-ATPase in the L6 muscle cell line.
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PMID:Ca2+ homeostasis and fast-type sarcoplasmic reticulum Ca(2+)-ATPase expression in L6 muscle cells. Role of thyroid hormone. 153 20

Physiological concentrations of retinoic acid can block the activation of human erythrocyte Ca(2+)-ATPase in vitro by thyroid hormone [Smith, Davis & Davis (1989) J. Biol. Chem. 264, 687-689]. The present studies were undertaken to ascertain the nature of this blockade. Two binding sites for L-thyroxine (T4) were demonstrated on washed erythrocyte membranes; the high-affinity site had a Kd value of 2.7 x 10(-10)M and a Bmax. of 76 fmol/mg of protein. The lower-affinity site possessed a Kd of 1 x 10(-8) M. Retinoic acid was as potent a displacer of radiolabelled T4 as was the unlabelled hormone. Certain retinoic acid analogues with either ring or fatty acid side chain modifications retained some ability to displace [125I]T4 binding and to block iodothyronine activation of Ca(2+)-ATPase. The side chain terminal carboxyl group was essential for full activity of the retinoic acid molecule. Its absence or replacement with an ethylsulphone group rendered the molecule considerably less active in the ATPase model. Retinol, 13-cis-retinoic acid, benzene-substituted all-trans-retinoic acid and polyprenoic acid all failed to influence iodothyronine binding or to block activation of Ca(2+)-ATPase by T4. There was good agreement between the ability of an analogue to displace [125I]iodothyronine binding and its ability to inhibit the T4-dependent activation of the Ca(2+)-ATPase. It would appear from these observations that retinoic acid can modulate the activation of erythrocyte membrane Ca(2+)-ATPase by thyroid hormone through a mechanism which involves displacement of iodothyronine from binding sites. These activities apparently derive from both the ring structure and the fatty acid side chain of the retinoic acid molecule.
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PMID:Stereochemical requirements for the modulation by retinoic acid of thyroid hormone activation of Ca(2+)-ATPase and binding at the human erythrocyte membrane. 153 54

Maximal rates of O2 uptake by hepatocytes from hypothyroid, euthyroid, and hyperthyroid rats, in the absence of uncoupling agents or ionophores, were achieved by simultaneously stimulating ureogenesis and gluconeogenesis. Rates were increased by pretreatment of the donor animals with thyroid hormone. Only a minor part of the increase could be attributed to stimulation of the activity of plasma membrane (Na+ + K+)-ATPase. No synthesis of glycogen occurred, nor was there any evidence of pyruvate cycling under the conditions used, thus ruling out these processes as potential sources of ATP turnover. Calculation of the O2 uptake necessary to satisfy the energy requirements of gluconeogenesis and ureogenesis, based on anticipated ATP demand and an assumed P:O ratio of 3:1, invariably yielded a theoretical quantity that was less than the experimentally measured increase in O2 uptake. The difference between measured and calculated rates of respiration, possibly representing noncoupled respiration, was related to the thyroid status of the animal, being greatest in cells from hyperthyroid rats. In another experimental approach the O2 uptake associated with ATP synthesis was inhibited by the addition of oligomycin to hepatocytes incubated in the presence of substrates, thus abolishing ATP-coupled respiration. The magnitude of the ATP-coupled as well as the residual respiration was increased in response to thyroid hormone. Thyroid hormone increased the turnover of intramitochondrial ATP. These results imply that a considerable portion of the thermogenic effect of thyroid hormone may be mediated by a stimulatory action on metabolism not directly associated with extramitochondrial ATP-dependent synthetic processes.
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PMID:Stimulation by thyroid hormone of coupled respiration and of respiration apparently not coupled to the synthesis of ATP in rat hepatocytes. 157 28

A tumor appeared on the back of a transgenic mouse carrying the SV40 T-antigen under control of a mouse major urinary protein promoter. High levels of mRNA for the mitochondrial uncoupling protein (UCP) indicated that the tumor was a hibernoma. The tumor has been established as a transplantable tumor line in nude (nu/nu) mice and used as a source of cells to develop a tissue culture system for analyzing brown fat development and differentiation. Ucp expression in tumor cells cultured in Dulbecco's modified Eagle's medium and 10% fetal calf serum was virtually undetectable. Addition of 10(-7) M norepinephrine resulted in approximately a 30-fold induction of Ucp mRNA within 4 h. The induction by norepinephrine was independent of cell density and also independent of thyroid hormone and insulin during the first 5 days in culture. However, in order to maintain the inducibility of Ucp during prolonged culture periods, it was necessary to supplement the medium with insulin. In contrast to Ucp, the expression of Gdc-1, which encodes the cytoplasmic glycerol-3-phosphate dehydrogenase and which is also induced in brown fat by cold exposure, was repressed by norepinephrine and induced by the addition of insulin. Characterization of the adrenergic receptors required for Ucp induction with agonists and antagonists indicated that beta 1 receptors are predominantly utilized; there is no evidence for utilization of beta 3 and alpha 1 receptors for Ucp induction.
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PMID:Adrenergic regulation of the mitochondrial uncoupling protein gene in brown fat tumor cells. 160 85

Regulation of Na,K-ATPase mRNA alpha isoform and mRNA beta expression by thyroid hormone (T3) in neonatal rat myocardium was examined. In euthyroid neonates between ages of 2 and 5 days, mRNA alpha 1, mRNA alpha 3, and mRNA beta 1 abundances were nearly constant while mRNA alpha 2 was undetectable. During the interval between postnatal days 5 and 15, mRNA alpha 3 decreased to negligible levels and mRNA alpha 2 became expressed and increased in abundance to account for approximately 20% of the mRNA alpha pool by the 15th postnatal day. To examine the effect of T3 on this developmental program, neonates were injected with 75 micrograms T3/100 g body weight or diluent alone on the second and third postnatal days and myocardial Na,K-ATPase subunit-mRNA abundances were determined on the third and fourth postnatal days. Because T3 treatment increased the RNA/DNA ratios of myocardial tissue, the subunit-mRNA abundances were normalized per unit DNA. Following 24 and 48 hr of T3 treatment, the abundances of mRNA alpha 1, mRNA alpha 3, and mRNA beta 1 increased, while mRNA alpha 2 continued to remain undetectable during the 2-day interval between the second to fourth postnatal days. It is concluded that T3 augments the abundance of Na,K-ATPase subunit mRNAs that are already being expressed in the neonatal rat myocardium. The results further suggest that T3 does not act as a "molecular switch" in the developmental expression of the mRNA alpha isoforms in rat myocardium during the first four postnatal days.
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PMID:Thyroid hormone regulation of Na,K-ATPase subunit-mRNA expression in neonatal rat myocardium. 164 35

Dietary caloric restriction extends life span in the Fischer 344 rat. The interaction of aging and caloric restriction was examined at the level of the plasma membrane transport-associated enzymes, Ca(2+)-adenosine triphosphatase (ATPase) and Na,K-ATPase, in the Fischer rat. Animals were in four age groups, ranging from 6.1 to 25.0 months, and were specific pathogen-free (SPF, barrier-raised). Results from male and female animals raised on an ad libitum diet were compared with those from rats that received 60% of the age-specific caloric intake of their ad lib littermates. The responses of erythrocyte membrane Ca(2+)-ATPase activity in vitro to thyroid hormone (L-thyroxine [T4]; 3,5,3'-triiodothyronine [T3]) and to purified calmodulin, a Ca(2+)-binding protein activator of Ca(2+)-ATPase, were measured. Erythrocyte membrane Na,K-ATPase was also compared in the two diet groups, as was plasma glucose. Plasma membrane Ca(2+)-ATPase activity in the absence of added thyroid hormone and calmodulin was significantly reduced in calorically restricted rats (-39%, P less than .001), compared with ad lib-fed animals, and the response was similar in the four age groups aged 6.1, 12.7, 17.0, and 25.0 months. In contrast, pooled (all ages) Ca(2+)-ATPase response in vitro to T4 and to T3 in calorically restricted animals was enhanced compared with the ad lib group (+62% and +58%, P less than .001, respectively). Calmodulin responsiveness of the enzyme was increased by 45% (P less than .001) in calorie-deprived animals, similar to the change in T4 and T3 responsiveness.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of caloric restriction and aging on erythrocyte membrane Ca(2+)-ATPase activity in specific pathogen-free Fischer 344 rats. 165 Apr 20

We have demonstrated previously that a variety of agents including corticosteroids, thyroid hormone, cationophores, methylxanthines, and analogues of cAMP--all of which have diversified functions in various tissues--elevate cellular angiotensin converting enzyme (ACE) activity of bovine endothelial cells in culture. In addition to these agents, we have now found that direct and receptor-mediated stimulators of adenylate cyclase, i.e., forskolin and cholera toxin, increase cellular ACE activity after 48 h incubation in culture. In an attempt to search out a more unifying concept of these stimulatory effects, we have further investigated the roles of second messengers in the stimulatory actions. Ca2+ ionophore A23187 produced significant increases in both intracellular Ca2+ and ACE of endothelial cells. In contrast to Ca2+ ionophore, agents that transiently mobilize Ca2+ from intracellular reserves such as bradykinin, acetylcholine, and ATP have no effect on the level of cellular ACE. Representative agents that elevate cellular cAMP (e.g., isobutyl methylxanthine [IBMX] and dibutyryl cAMP) elevated cellular ACE, but the slightly increased [Ca2+]i produced by these agents did not reach statistical significance. While IBMX, cholera toxin, and forskolin elevated cellular cAMP, other ACE stimulatory agents (hormones and cationophores) had no effect on cAMP. Ca2+ ionophore and the agents that elevated intracellular cAMP potentiated the effect of dexamethasone, thyroid hormone, and aldosterone in elevating cellular ACE activity. Increases in ACE activity produced by all stimulants were inhibited by the presence of 10-50 nM ouabain in the culture medium. Inhibition of ACE elevation by oubain was reversed by increasing the extracellular [K+], thereby implicating Na+, K(+)-ATPase in the ACE regulatory mechanism. These results support the presence of multiple independent mechanisms for the regulation of cellular ACE. In addition to possible involvement of intracellular Ca(2+)- and cAMP-dependent pathways, ACE is also increased by corticosteroids and thyroid hormone through mechanisms unrelated to Ca2+ and cAMP.
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PMID:Involvement of second messenger systems in stimulation of angiotensin converting enzyme of bovine endothelial cells. 165 91


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