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)

Aldosterone, like other steroid hormones, initiates its effects by binding to intracellular receptors; these receptors are then able to control the transcription of several genes. The products of these genes eventually modulate the activity of ionic transport systems located in the apical and the basolateral membrane of specialized epithelial cells, thereby modulating the excretion of Na+ and K+ ions. Considerable progress has been made recently in understanding these mechanisms and the structure of the proteins involved in these processes. A novel principle has been discovered to explain the selective effect of aldosterone on its target epithelia. These tissues exclude competing glucocorticoid hormones by the activity of the 11 beta-hydroxysteroid dehydrogenase to allow aldosterone, an enzyme-resistant steroid, to bind to its receptors. Aldosterone induces numerous changes in the activity of membrane ion transport systems and enzymes and cell morphology. Although the enhancement of Na,K-ATPase synthesis and the increase of the number of active Na+ channels in the apical membrane appear as both direct and primary effects, the mechanisms of the other effects remain to be determined. The knowledge of the primary structure of several elements of the aldosterone response system (e.g., mineralocorticoid receptor and Na,K-ATPase) allows us to understand abnormal regulation of Na+ balance at the molecular level and, potentially, to identify genetic alterations responsible for these defects.
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PMID:Aldosterone regulation of gene transcription leading to control of ion transport. 137 88

To examine a physiological role of 11 beta-hydroxysteroid dehydrogenase (11OHSD) in the aldosterone target tissue, we measured Na(+)-K(+)-ATPase activity in the cortical collecting ducts (CCD) from adrenalectomized rats, which were treated with a physiological dose of corticosterone and/or carbenoxolone (an inhibitor of 11OHSD). The Na(+)-K(+)-ATPase activity in adrenalectomized rats was not significantly changed by either corticosterone alone or carbenoxolone alone, whereas its activity showed a significant increase only in the rats that received both corticosterone and carbenoxolone. In these rats, the plasma concentration of corticosterone was within the physiological range (10(-6) M) and the plasma carbenoxolone concentration was about 10(-7) M. Furthermore, the direct effect of carbenoxolone was examined in the microdissected CCD because it has been reported that carbenoxolone per se had an affinity for the aldosterone receptor. Na+K(+)-ATPase activity in the microdissected CCD was increased in a dose-dependent manner after a 3-hour incubation with carbenoxolone, and this effect was completely inhibited by canrenoic acid (an aldosterone antagonist). However, the minimal carbenoxolone concentration exerting a stimulatory effect was 10(-6) M, which is about 10 times higher than the plasma concentration of carbenoxolone in the in vivo treated rats. These results indicate that an inhibition of 11OHSD but not a direct action of carbenoxolone induces an increase in Na(+)-K(+)-ATPase activity, which is a well-known aldosterone effect in the CCD.
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PMID:Corticosterone increases Na(+)-K(+)-ATPase activity in rat cortical collecting ducts with inhibition of 11 beta-hydroxysteroid dehydrogenase. 753 35

In normal physiology 11 beta-hydroxysteroid dehydrogenase (11 beta-OHSD) protects the mineralocorticoid receptor (MR) from glucocorticoid excess. In the rat, however, 11 beta-OHSD mRNA and activity is widespread, suggesting that it may also play a role in regulating ligand access to the glucocorticoid receptor (GR). We have studied the role of the 11 beta-OHSD in modulating corticosteroid hormone action in rat pituitary GH3 cells (glucocorticoids inhibit prolactin gene transcription) and renal epithelial NRK-52E cells (mineralocorticoids increase Na-K ATPase subunit gene expression) in culture. Both cell lines express high levels of 11 beta-OHSD activity, and Northern/Western blot analyses using a rat cDNA probe and antisera raised against rat liver 11 beta-OHSD reveal a single 1.4 Kb mRNA encoding an enzyme of molecular size 34 kDa. In GH3 cells, prolactin gene transcription was unaffected by corticosterone (B) in doses of 10(-8) to 10(-6) M. When 11 beta-OHSD activity was inhibited with the licorice derivative, glycyrrhetinic acid (GE); however, 10(-6) M B inhibited prolactin (PRL) mRNA levels to the same degree as an equimolar concentration of the GR agonist RU 28362. This effect was blocked by co-incubation with the GR antagonist RU 38486. In NRK-52E cells, co-incubation with B and GE resulted in a marked increase in alpha 1/beta 1 Na-K ATPase subunit mRNA levels when compared with GE and/or B alone and this effect could be blocked by administration of the MR antagonist RU 26752.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:11 beta-Hydroxysteroid dehydrogenase activity and corticosteroid hormone action. 819 54

Glucocorticoids promote the development of many organs including intestine. At the cellular level, the activity of glucocorticoids is regulated by 11 beta-hydroxysteroid dehydrogenase (11 beta HSD) which converts active glucocorticoids to inactive metabolites. As 11 beta HSD is also expressed in the intestine, this enzyme may be an important regulator of intestinal maturation. To investigate this, we have performed the systematic study of the development of intestinal 11 beta HSD activity and its cofactor preference as well as of the effect of 11 beta HSD inhibition by carbenoxolone on postnatal development of sucrase, alkaline phosphatase and Na,K-ATPase in the intestine. The activity of 11 beta HSD was low in ileum of suckling rats and significantly increased during the weaning period. In colon, the activity was already high in suckling rats and gradually rose during the postnatal development. 11 beta HSD activity was undetectable in jejunum both in young and adult rats. At 14.5 nM corticosterone, colonic 11 beta HSD utilized predominantly NAD as a cofactor, but displayed significant sensitivity also to NADP. Ileal 11 beta HSD had similar sensitivity to both cofactors. With NAD as a cofactor, ileal 11 beta HSD had a Km (59 +/- 10 nM) compatible with the colonic enzyme (81 +/- 14 nM). Carbenoxolone administration to suckling and weanling rats in vivo did not result in any changes of sucrase activity in jejunum and ileum, alkaline phosphatase activity in ileum and distal colon or Na,K-ATPase activity in ileum. However, carbenoxolone significantly increased Na,K-ATPase activity in distal colon. Our results indicate that the high-affinity type of 11 beta HSD is expressed not only in colon but also in ileum and that 11 beta HSD is an important factor in the regulation of tissue levels of active glucocorticoids in developing colon but not in the small intestine.
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PMID:The role of 11 beta-hydroxysteroid dehydrogenase in maturation of the intestine. 937 10

The main mechanisms involved in the regulation of sodium transport by steroid hormones are briefly reviewed. The respective roles of the apical epithelial sodium channel, which is likely to be the limitant step of steroid-regulated transepithelial sodium transport, and Na,K-ATPase are described. Regulation of these ion transporting proteins by aldosterone and glucocorticoid hormones, probably via a two step mechanism (rapid activation of channels or pumps by unknown regulators, and modulation of the transcription/translation rate of these transporters), is discussed. The mechanisms of mineralocorticoid selectivity, that is, the integrated process allowing a specific action of aldosterone, in spite of high concentrations of glucocorticoids that crossbind with aldosterone to the mineralocorticoid receptor (MR), are explained, as is the role of the enzyme 11 beta-hydroxysteroid dehydrogenase and the differential interactions of MR with steroid ligands and hormone responsive elements of DNA. Finally, synergism between aldosterone and antidiuretic hormone for the stimulation of sodium transport is evoked.
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PMID:Regulation of sodium transport by steroid hormones. 955 32

The rat undergoes profound maturational changes in the intestinal structure and function during the third week of its life. To investigate the role of peripheral glucocorticoid metabolism in this process, we studied the postnatal maturation of intestinal structure and function. The peripheral metabolism of glucocorticoids depends on enzyme 11beta-hydroxysteroid dehydrogenase (11betaHSD), which is responsible for the interconversion of corticosterone to 11-dehydrocorticosterone and thus for the modulation of glucocorticoid access to corticosteroid receptors. The pups were treated with carbenoxolone (CBX), an inhibitor of 11betaHSD, for 10 d during the suckling (days 8-18) or weaning period (days 14-24 or days 20-30), and we determined the parameters of intestinal growth and activities of sucrase, alkaline phosphatase, and Na,K-ATPase. The CBX treatment increased plasma concentrations of corticosterone as a result of a significant reduction of peripheral degradation of corticosterone catalyzed by 11betaHSD. This also stimulated intestinal growth without changing somatic growth. The mucosal cell mass was significantly higher in CBX-treated suckling rats, whereas the effect of this treatment was less obvious in weanling animals. CBX increased the crypt depth and villus height in 18- and 24-d-old pups but not in 30-d-old animals. The small intestinal activities of sucrase, alkaline phosphatase, and Na,K-ATPase were not influenced by CBX. In contrast, colonic Na,K-ATPase was stimulated by CBX. We conclude that the administration of CBX results in acceleration of intestinal growth and structural maturation without any influence on the developmental pattern of brush-border hydrolases. The results indicate an important role of peripheral glucocorticoid metabolism in the regulation of intestinal growth during early postnatal life.
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PMID:Carbenoxolone accelerates maturation of rat intestine. 1262 Nov 20

The distal nephron plays a capital role in the fine regulation of sodium reabsorption. Compared with the cortical collecting duct, much less information is available on the hormonal regulation of sodium transporter genes in the distal convoluted tubule (DCT), where the thiazide-sensitive Na(+)-Cl(-) cotransporter (NCC) is the major entry pathway for Na(+). The purpose of this study was to characterize the in vitro effects of aldosterone (Aldo; 1 microM) and cAMP (8-BrcAMP; 0.5 mM) on mouse DCT (mDCT) by using an immortalized mDCT cell line. Western blot analysis and semiquantitative RT-PCR were performed to analyze the expression of genes involved in sodium transport. The mDCTcell line expressed the 11 beta-hydroxysteroid dehydrogenase type 2 gene and both the mineralocorticoid and glucocorticoid receptor genes, suggesting Aldo responsiveness. In this sense, we found that mDCT cells expressed the amiloride-sensitive Na(+) channel (ENaC) and responded to Aldo by upregulating the alpha-subunit protein. Similarly, alpha(1) Na(+)-K(+)-ATPase protein was upregulated by Aldo and 8-BrcAMP. In addition, the Aldo intermediate gene sgk1 mRNA was increased in response to both Aldo and 8-BrcAMP, and the transcription factor HNF-3 alpha mRNA was induced by 8-BrcAMP. With respect to NCC regulation, although Aldo induced NCC protein levels in mice in vivo, neither Aldo nor 8-BrcAMP significantly induced the NCC mRNA or protein levels in mDCT cells. These results suggest that in mDCT, Aldo and cAMP modulate some downstream mediators and effectors in vitro but do not influence the expression of NCC in this cell model.
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PMID:In vitro characterization of aldosterone and cAMP effects in mouse distal convoluted tubule cells. 1507 89

Nephrotic syndrome is often accompanied by sodium retention and generalized edema. We hypothesize that dysregulation of the epithelial sodium channel (ENaC) and/or of sodium (co)transporters may be responsible for the increased sodium retention associated with HgCl(2)-induced nephropathy. In addition, we examined the hypothesis that the expression of type 2 11beta-hydroxysteroid dehydrogenase (11betaHSD2) is reduced, contributing to the enhanced mineralocorticoid activity. Membranous nephropathy was induced in Brown Norway rats by repeated injections of HgCl(2) (1 mg/kg sc), whereas the control group received only vehicle. After 13 days of treatment, the abundance of ENaC subunits, sodium (co)transporters, and 11betaHSD2 in the kidney was examined by immunoblotting and immunohistochemistry. HgCl(2) treatment induced marked proteinuria, hypoalbuminemia, decreased urinary sodium excretion, and ascites. The protein abundance of alpha-ENaC was increased in the cortex/outer stripe of outer medulla (OSOM) and inner stripe of the outer medulla (ISOM). The protein abundances of beta-ENaC and gamma-ENaC were decreased in the cortex/OSOM while increased in the ISOM. Immunoperoxidase microscopy demonstrated increased targeting of ENaC subunits to the apical plasma membrane in the distal convoluted tubule, connecting tubule, and cortical and medullary collecting duct segments. Moreover, 11betaHSD2 abundance was decreased in cortex/OSOM and ISOM. The protein abundances of type 3 Na/H exchanger (NHE3), Na-K-2Cl cotransporter (NKCC2), and thiazide-sensitive Na-Cl cotransporter (NCC) were decreased. Moreover, the abundance of the alpha-1 subunit of the Na-K-ATPase was decreased in the cortex/OSOM and ISOM but remained unchanged in the inner medulla. These results suggest that increased apical targeting of ENaC subunits combined with diminished abundance of 11betaHSD2 may contribute to sodium retention associated with HgCl(2)-induced nephrotic syndrome. The decreased abundance of NHE3, NKCC2, NCC, and Na-K-ATPase may play a compensatory role in promoting sodium excretion.
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PMID:Increased apical targeting of renal ENaC subunits and decreased expression of 11betaHSD2 in HgCl2-induced nephrotic syndrome in rats. 1618 94

The lumen of the inner ear has an unusually low concentration of endolymphatic Na+, which is important for transduction processes. We have recently shown that glucocorticoid receptors (GR) stimulate absorption of Na+ by semicircular canal duct (SCCD) epithelia. In the present study, we sought to determine the presence of genes involved in the control of the amiloride-sensitive Na+ transport pathway in rat SCCD epithelia and whether their level of expression was regulated by glucocorticoids using quantitative real-time RT-PCR. Transcripts were present for alpha-, beta-, and gamma-subunits of the epithelial sodium channel (ENaC); the alpha1-, alpha3-, beta1-, and beta3-isoforms of Na+-K+-ATPase; inwardly rectifying potassium channels [IC50 of short circuit current (Isc) for Ba2+: 210 microM] Kir2.1, Kir2.2, Kir2.3, Kir2.4, Kir3.1, Kir3.3, Kir4.1, Kir4.2, Kir5.1, and Kir7.1; sulfonyl urea receptor 1 (SUR1); GR; mineralocorticoid receptor (MR); 11beta-hydroxysteroid dehydrogenase (11beta-HSD) types 1 and 2; serum- and glucocorticoid-regulated kinase 1 (Sgk1); and neural precursor cell-expressed developmentally downregulated 4-2 (Nedd4-2). On the other hand, transcripts for the alpha4-subunit of Na+-K+-ATPase, Kir1.1, Kir3.2, Kir3.4, Kir6.1, Kir6.2, and SUR2 were found to be absent, and Isc was not inhibited by glibenclamide. Dexamethasone (100 nM for 24 h) not only upregulated the transcript expression of alpha-ENaC (approximately 4-fold), beta2-subunit (approximately 2-fold) and beta3-subunit (approximately 8-fold) of Na+-K+-ATPase, Kir2.1 (approximately 5-fold), Kir2.2 (approximately 9-fold), Kir2.4 (approximately 3-fold), Kir3.1 (approximately 3- fold), Kir3.3 (approximately 2-fold), Kir4.2 (approximately 3-fold), Kir7.1 (approximately 2-fold), Sgk1 (approximately 4-fold), and Nedd4-2 (approximately 2-fold) but also downregulated GR (approximately 3-fold) and 11beta-HSD1 (approximately 2-fold). Expression of GR and 11beta-HSD1 was higher than MR and 11beta-HSD2 in the absence of dexamethasone. Dexamethasone altered transcript expression levels (alpha-ENaC and Sgk1) by activation of GR but not MR. Proteins were present for the alpha-, beta-, and gamma-subunits of ENaC and Sgk1, and expression of alpha- and gamma-ENaC was upregulated by dexamethasone. These findings are consistent with the genomic stimulation by glucocorticoids of Na+ absorption by SCCD and provide an understanding of the therapeutic action of glucocorticoids in the treatment of Meniere's disease.
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PMID:Glucocorticoid regulation of genes in the amiloride-sensitive sodium transport pathway by semicircular canal duct epithelium of neonatal rat. 1626 2

This is the first study to report concurrent dynamics in mRNA expression of growth hormone receptor (GHR), prolactin receptor (PRLR), gluco- and mineralocorticoid receptor (GR and MR) and the 11beta-hydroxysteroid dehydrogenase type-2 enzyme (11beta-HSD2) in Atlantic salmon (Salmo salar) gill during smoltification. Transcript levels were analysed by quantitative PCR in fresh water (FW) fish and after a 24-h salt water (SW) challenge. GHR transcript levels increased concurrent with gill Na(+),K(+)-ATPase activity in FW fish consistent with the SW-adaptive role of GH. SW-transfer induced an increased GHR expression levels in the early stages of smoltification but a decrease in expression at the peak of smoltification. PRLR transcript levels decreased steadily during smoltification in agreement with the recognized hyper-osmoregulatory role of PRL. Surprisingly, PRLR levels increased after SW transfer during the course of smoltification. GR mRNA levels were low early on during smoltification but increased at the peak of smoltification and remained high during de-smoltification, indicative of increased cortisol signalling at this point. Coherently, SW transfer increased GR levels to smolt levels prior to the smoltification peak. 11beta-HSD2 levels increased at the smoltification peak and MR levels increased during de-smoltification, suggesting a need for protection of MR from cortisol signalling during smoltification. This is supported by the fact that SW-transfer results in a profound up-regulation of 11beta-HSD2, whereas SW transfer down-regulates MR levels. The study concludes that GR and MR may have distinctive roles in developing hypo- and hyper-osmoregulatory mechanisms during smoltification and de-smoltification, respectively.
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PMID:Hormone receptors in gills of smolting Atlantic salmon, Salmo salar: expression of growth hormone, prolactin, mineralocorticoid and glucocorticoid receptors and 11beta-hydroxysteroid dehydrogenase type 2. 1728 45

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