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 in vivo and vitro studies have demonstrated that Na,K-ATPase activity in membranes of thymus, spleen, small intestine mucosa, liver, kidneys, and brain cortex of rats is inhibited by the effect of radioprotective agents: serotonin, dopamine, histamine, MEA, and AET.
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PMID:[The action of radioprotectors on the systems of active ion transport. Na,K-ATPase]. 215 82

The effect of endothelins (ET-1 and ET-3) on 86Rb+ uptake as a measure of K+ uptake was investigated in cultured rat brain capillary endothelium. ET-1 or ET-3 dose-dependently enhanced K+ uptake (EC50 = 0.60 +/- 0.15 and 21.5 +/- 4.1 nM, respectively), which was inhibited by the selective ETA receptor antagonist BQ 123 (cyclo-D-Trp-D-Asp-Pro-D-Val-Leu). Neither the selective ETB agonists IRL 1620 [N-succinyl-(Glu9,-Ala11,15)-ET-1] and sarafotoxin S6c, nor the ETB receptor antagonist IRL 1038 [(Cys11,Cys15)-ET-1] had any effect on K+ uptake. Ouabain (inhibitor of Na+,K(+)-ATPase) and bumetanide (inhibitor of Na(+)-K(+)-Cl- cotransport) reduced (up to 40% and up to 70%, respectively) the ET-1-stimulated K+ uptake. Complete inhibition was seen with both agents. Phorbol 12-myristate 13-acetate (PMA), activator of protein kinase C (PKC), stimulated Na+,K(+)-ATPase and Na(+)-K(+)-Cl- cotransport. ET-1- but not PMA-stimulated K+ uptake was inhibited by 5-(N-ethyl-N-isopropyl)amiloride (inhibitor of Na+/H+ exchange system), suggesting a linkage of Na+/H+ exchange with ET-1-stimulated Na+,K(+)-ATPase and Na(+)-K(+)-Cl- cotransport activity that is not mediated by PKC.
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PMID:Endothelin 1 stimulates Na+,K(+)-ATPase and Na(+)-K(+)-Cl- cotransport through ETA receptors and protein kinase C-dependent pathway in cerebral capillary endothelium. 756 53

Endothelin (ET) potently inhibits arginine vasopressin (AVP)-induced adenosine 3',5'-cyclic monophosphate (cAMP) accumulation and Na-K-adenosinetriphosphatase (Na-K-ATPase) activity in the inner medullary collecting duct (IMCD). At least two types of ET receptors exist: ETA [binds ET-1 > ET-3 = sarafotoxin S6c (S6c)] and ETB (binds ET-1 = ET-3 = S6c). We examined which of these receptors mediates biological actions of ET in freshly isolated rat IMCD cells. Binding studies revealed comparable displacement of 125I-ET-3 by ET-1, ET-3, and S6c, whereas 125I-ET-1 was displaced by ET-1 >> ET-3 = S6c. Together, these studies confirm the presence of receptors in the IMCD with ETA and ETB binding characteristics. ET-1, ET-3, and S6c were equipotent in reducing AVP-stimulated cAMP accumulation. BQ-123, at concentrations selective for ETA receptor antagonism, did not alter the effect of ET-1, ET-3, or S6c. Pertussis toxin or protein kinase C blockade, but not indomethacin, inhibited the effect of ET-1 and S6c on AVP-stimulated cAMP accumulation, consistent with activation of the same signal transduction pathways. ET-1 and S6c were equipotent in reducing forskolin-stimulated cAMP accumulation, ruling out inhibition of AVP-receptor interaction as a common mechanism of action. Finally, ET-1, ET-3, and S6c caused comparable stimulation of prostaglandin E2 (PGE2) accumulation, an effect that was not blocked by BQ-123. These data indicate that an ETB-like receptor mediates ET stimulation of PGE2 and inhibition of AVP-enhanced cAMP accumulation in the IMCD. The function of the ETA-like receptor in the IMCD remains to be determined.
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PMID:Endothelin B receptor mediates ET-1 effects on cAMP and PGE2 accumulation in rat IMCD. 769 6

The mechanism of Ca++ mobilization induced by endothelins (ETs) and the receptor subtype responsible for this effect were examined in the endothelium of rabbit aortic valve. In the endothelium loaded with fura-2, ET-1 (1-100 nM) induced large transient increase followed by small sustained increase in cytosolic Ca++ level ([Ca++]i) in a concentration-dependent manner. ET-3 induced only a small increase in [Ca++]i at higher concentrations (100-300 nM) than ET-1, whereas a selective ETB agonist, 100 nM IRL 1620 (succinyl-[Glu9, Ala11,15]ET-1 8-21), was ineffective. A selective ETA antagonist, 3 microM BQ-123, (cyclo [-Asp-Pro-Val-Leu-Trp-]) but not a selective ETB antagonist, 10 microM RES-701-1 [cyclic (Gly1-Asp9) (Gly-Asn-Trp-His-Gly-Thr-Ala-Pro-Asp- Trp-Phe-Phe-Asn-Tyr-Tyr-Trp)], inhibited the effects of ET-1 and ET-3. The sustained increase in [Ca++]i induced by ET-1 was abolished by 30 microM La , although 100 nM nicardipine was ineffective. In the absence of external Ca++ (with 0.5 mM EGTA), ET-1 induced only a transient increase in [Ca++]i, which was inhibited by an inhibitor of Ca+(+)-ATPase in endoplasmic reticulum, 1 microM thapsigargin. However, an inhibitor and an activator of Ca+(+)-induced Ca+(+)-release channel, 10 microM ryanodine and 10 mM caffeine, did not change [Ca++]i. These results suggest that, in the endothelium of rabbit aortic valve, only the ETA receptor mediates the effects of ETs to increase [Ca++]i, which is attributable to the release of Ca++ from thapsigargin-sensitive and ryanodine-insensitive Ca++ stores and also to the Ca++ influx through La (-)sensitive and dihydropyridine-insensitive Ca++ channels.
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PMID:Ca++ mobilization mediated by endothelin ETA receptor in endothelium of rabbit aortic valve. 799 47

1. It has been shown previously that nordihydroguaiaretic acid (NDGA) inhibits endothelin-1 (ET-1)-induced contractions in rat isolated tracheal smooth muscle. To investigate the underlying mechanisms, this study examined the effects of NDGA on various aspects of the ETA and ETB receptor-effector systems which mediate ET-1-induced contractions in this preparation. 2. NDGA inhibited contractions induced by each of the isoforms of ET (ET-1, ET-2 and ET-3) but not those induced by the ETB receptor-selective agonist, sarafotoxin S6c, the cholinoceptor agonist, carbachol or the depolarizing spasmogen, KCl. 3. Quantitative autoradiographic studies of [125I]-ET-1 binding to rat tracheal smooth muscle indicated that NDGA was not an ET receptor antagonist. 4. NDGA inhibited the ETA receptor-mediated, intracellular Ca(2+)-dependent contractions induced by 100 nM ET-1 in Ca(2+)-free solution (by 75%, P < 0.01). Furthermore, NDGA markedly inhibited the contractions induced by ryanodine and cyclopiazonic acid; contractions purportedly due to Ca2+ release from intracellular stores. 5. Like NDGA, the sarcoplasmic reticulum Ca(2+)-ATPase inhibitors cyclopiazonic acid and thapsigargin inhibited contractions to ET-1, but not carbachol or KCl. However, cyclopiazonic acid, but not NDGA, also (a) induced transient contractions in rat trachea, (b) potentiated contractions induced by KCl, and (c) potentiated the extracellular Ca(2+)-dependent phase of ET-1-induced contractions, indicating that NDGA did not inhibit ET-1-induced contractions through Ca(2+)-ATPase inhibition and depletion of sarcoplasmic reticular Ca2+. 6. In control preparations, ET-1 induced a slowly developing, sustained contraction. However, in the presence of NDGA or the ETA receptor antagonist, BQ123, ET-1-induced contractions resembled the transient contractions induced by sarafotoxin S6c. In nominally Ca2+-free solution, ETA receptor mediated contractions induced by ET-1 developed very slowly and were inhibited by NDGA.7. Additional studies indicated that the inhibitory effects of NDGA on endothelin-1-induced contractions were not the result of any significant actions of NDGA on lipoxygenase, cytochrome P450, L- orT-type Ca2+-channels, Na+-channels or protein kinase C.8. In summary, NDGA selectively inhibited ET-1-induced contractions in rat tracheal smooth muscle via a lipoxygenase-independent mechanism involving inhibition of the ETA but not the ETB, receptor effector system. NDGA did not appear to inhibit the initial events in the ETA signal transduction pathway, such as receptor binding and protein kinase C activation. However, NDGA inhibited the intracellular Ca2+-dependent component of ET-1-induced contraction, possibly by inhibiting mobilisation of intracellular Ca2+. As an apparent direct consequence of inhibiting the ETA receptor-effector system, NDGA markedly changed the time course of ET-1-induced contractions; from a slowly developing and sustained contraction into a transient contraction resembling that induced by sarafotoxin S6c.
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PMID:Inhibitory effects of nordihydroguaiaretic acid on ETA-receptor-mediated contractions to endothelin-1 in rat trachea. 800 99

1. We investigated the characteristics of endothelin (ET)-induced contraction and changes in intracellular Ca2+ concentration ([Ca2+]i) using the fura-2-loaded and non-loaded rabbit iris dilator. ET-1 and ET-2 (3-100 nM) and ET-3 (30-100 nM) caused contraction in a concentration-dependent fashion. 2. The selective ETB-receptor agonists, IRL1620 and sarafotoxin S6c produced only a small contraction or no contraction at a concentration of 1 microM. The rank order of potencies for the contraction (pD2 value) was ET-1 = ET-2 > ET-3 >> sarafotoxin S6c = IRL1620. 3. The contractile response to ET-3 was antagonized by pretreatment with BQ-123 (10 nM), a selective ETA receptor antagonist. The contractile responses to ET-1 and ET-2 were antagonized by pretreatment with BQ-123 (10 microM), but not at a concentration of 10 nM. 4. ETs increased [Ca2+]i and sustained muscle contraction. ET-1 (100 nM), ET-2 (100 nM), and ET-3 (1 microM) induced an elevation of [Ca2+]i consisting of two components: first a rapid and transient elevation to reach a peak, followed by a second, sustained elevation; a sustained contraction was produced without a transient contraction. The ETB receptor-selective agonist, IRL1620 (1 microM) and sarafotoxin S6c (1 microM) also induced a rapid and transient elevation of [Ca2+]i to reach a peak and a sustained elevation, together with only a small contraction or no contraction. 5. ET-1 (100 nM) induced a transient increase in [Ca2+]i in a Ca(2+)-free, 2 mM EGTA-containing physiological saline solution (Ca(2+)-free PSS), and a small sustained contraction which was significantly different from that induced by ET-1 (100 nM) in normal PSS. The ET-1-induced increase in [Ca2+]i and sustained contraction were not affected by the voltage-dependent Ca2+ channel blocker, nicardipine (10 microM). The ET-1-induced transient increase in [Ca2+]i was significantly reduced by the sarcoplasmic reticulum (SR) Ca(2+)-ATPase inhibitor, cyclopiazonic acid (30 microM); however, the ET-1-induced sustained contraction was not affected by this agent. 6. The selective ETA receptor antagonist, BQ-123 (100 nM) reduced the ET-3 (100 nM)-induced contraction, but did not affect the transient increase or elevation of the second phase of [Ca2+]i. However, this antagonist at 1 microM did not affect the ET-1 (100 nM)- and ET-2 (100 nM)-induced elevation of [Ca2+]i and contractile response, or the IRL1620-induced elevation of [Ca2+]i. 7. The selective ETB receptor antagonist, BQ-788 (1 microM) reduced the transient increase in [Ca2+]i induced by ET-1 (30 nM), ET-2 (30 nM), ET-3 (100 nM) and IRL1620 (1 microM), but did not affect the sustained elevation of [Ca2+]i and contractile responses produced by ET-1, ET-2 and ET-3. 8. Pretreatment with IRL1620 (1 microM) reduced the increase in [Ca2+]i induced by IRL1620 (1 microM) and sarafotoxin S6c (1 microM), as well as the ET-1 (100 nM)-, ET-2 (100 nM)- and ET-3 (1 microM)-induced elevation of [Ca2+]i, whereas in the presence of IRL1620, ET-1-, ET-2- and ET-3-induced contractions were unaltered. 9. These results suggest that ETA and ETB receptor subtypes exist in the rabbit iris dilator muscle, and that the ETA receptor is divided into: (1) BQ-123-sensitive ETA subtypes activated by ET-1, ET-2 and ET-3, and (2) BQ-123-insensitive ETA subtypes activated by ET-1 and ET-2, which cause the sustained increase of [Ca2+]i and contraction; in contrast, ETB receptor subtypes are activated by ET-1, ET-2, ET-3, IRL1620 and sarafotoxin S6c and cause the transient and sustained increase in [Ca2+]i which is not able to contract the smooth muscle.
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PMID:Characterization of endothelin receptor subtypes mediating Ca2+ mobilization and contractile response in rabbit iris dilator muscle. 888 26

This report describes the fractional separation of microvessels from human brain for establishment of segmentally derived endothelial cell (EC) cultures. The investigation comprised evaluation of media constituents and purity of the cell culture and focused on functional biochemical characterization of endothelium derived from large microvessels (EC) Cells contained endothelial marker factor VIII (von Willebrand antigen), secreted endothelin-1 (ET-1) and prostaglandins, and took up 86Rb+ as a measure of K+. Exogenous ET-1 stimulated phosphatidylinositol hydrolysis and K+ uptake; BQ-123 (selective ETA receptor antagonist) but not IRL-1038 or BQ-788 (selective ETB receptor antagonists) inhibited both. Ouabain (inhibitor of Na(+)-K(+)-ATPase) and bumetanide (inhibitor of Na(+)-K(+)-Cl- cotransport) reduced (74-80 and 20-40%, respectively) the ET-1-stimulated K+ uptake. Staurosporine [protein kinase C (PKC) inhibitor] selectively reduced Na(+)-K(+)-Cl- cotransport, whereas verapamil but not nifedipine (L-type voltage-dependent Ca2+ channel blockers) decreased Na(+)-K(+)-ATPase activity induced by ET-1. Phorbol 12-myristate 13-acetate (PMA; activator of PKC) stimulated K+ uptake, which was only decreased with bumetanide. N-ethylisopropylamiloride (inhibitor of Na+/H+ exchange) reduced the ET-1-stimulated but not the PMA-induced K+ uptake. Results indicate that phosphatidylinositol hydrolysis and ion transport systems in large microvascular EC are stimulated by ET-1 through activation of ETA receptors. The findings also suggest that the ET-1-stimulated Na(+)-K(+)-ATPase activity, in contrast to Na(+)-K(+)-Cl- cotransport, is not mediated by PKC. In addition, the data suggest a linkage between Na(+)-K(+)-ATPase activity and Na+/H+ exchange.
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PMID:Functional properties of cultured endothelial cells derived from large microvessels of human brain. 903 29

The role of intermediate cells (ICs) in the stria vascularis (SV) of the cochlear ducts in the generation of endocochlear potential (EP) is clear because certain mutants cannot generate EP. Recent reports have shown that endothelin (ET) stimulates or inhibits the function of Na+, K(+)-ATPase in various organs. This study was designed to examine the immunocytochemical localization of ET and its receptor in the SV. The cochlear ducts of WBB6F1 (+/+) mice and mutants (W/Wv) devoid of the ICs were used for light and electron microscopic immunocytochemistry using rabbit anti-ET-1, ET-3, and ETA receptor antisera. The location of Na+, K(+)-ATPase using rabbit anti-rat Na+, K(+)-ATPase was also examined. Immunoreactivity to Na+, K(+)-ATPase was seen in the marginal cells (MCs) in both species. Immunoreactivity to ET-1 and ET-3 was preferentially localized in the rough endoplasmic reticulum and cytoplasmic vesicles of the ICs and along the plasma membrane of the ICs and in the MCs apposed to the ICs. Immunoreactive sites for ETA were almost identical to those of ET-1 and ET-3. Because Na+, K(+)-ATPase activities also exist in the MCs of the mutants, it appears likely that ET, synthesized and released by the ICs, may participate in generation of EP by regulating the function of Na+, K(+)-ATPase for production of the endolymph of the MCs.
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PMID:The significance of endothelin for generation of endocochlear potential. 959 87

The contributions were determined in primary cultures of bovine corneal epithelial cells (BCEC) of Na:H exchange (NHE) and vacuolar H+-ATPase (i.e. V-type) activity to the regulation of intracellular pH (pHi). Furthermore, we characterized the effects on pHi regulation of exposure to 1 microM ET-1 under control and acid loaded conditions. With the pH sensitive dye, 2',7' Bis (carboxyethyl)-5,6-carboxyfluorescein acetoxymethyl ester (BCECF-AM), the control pHi was 7.1 in NaCl (nominally HCO3-free) Ringers. Inhibition of NHE with 100 microM dimethylamiloride (DMA) rapidly decreased pHi by 0.37 units. Similarly, selective inhibition of V-type H+-ATPase with 10 microM bafilomycin A1 decreased pHi by 0.22 units. Following acid loading in NaCl Ringers with a 20 mm NH4Cl prepulse, pHi recovery was partially inhibited by exposure to either Na-free (NMGCl) Ringers, 100 microM DMA or 20 microM bafilomycin A1. Based on decreases in H+ efflux resulting from selective inhibition of NHE and V-type H+ pump activity, NHE activity accounts for 76% of the pHi recovery following acid loading. Under control conditions, ET-1 (1 microM) had no effect on pHi whereas ET-1 completely suppressed pHi recovery following acid loading in NaCl or NMGCl Ringers. This inhibitory effect was largely due to stimulation of ETA because in the presence of BQ-123 (10 microM), a selective ETA receptor antagonist, pHi recovery was completely restored. Suppression of pHi recovery also occurred following stimulation of protein kinase C (PKC) with 10(-7) m phorbol myristate (PMA) whereas 10(-7) m 4 alpha phorbol 12,13 didecanoate (PDD) had no effect. ET-1 failed to suppress pHi recovery after inhibition of PKC with 0.5 microM calphostin C suggesting that the inhibition of pHi recovery by ET-1 is a consequence of PKC stimulation. Similarly, inhibition of Ca2+-dependent calmodulin stimulated CaM II kinase with KN-62 (10 microM) reversed the suppression of pHi recovery by ET-1. Preinhibition of either protein phosphatase (PP), PP-1, PP-2A or PP-2B activity with 1 microM phenylarsine oxide, 10 nm okadaic acid, 10 microM cyclosporin A1 or 20 microM BAPTA, also obviated the suppression of pHi recovery by ET-1. Therefore ETA receptor mediated inhibition of pHi regulation following acid loading could be a consequence of either PKC or CaMII kinase stimulation. Each one of these kinases may in turn phosphorylate and thereby stimulate the activities of PP-1, PP-2A or PP-2B. An increase in the activity of any one of these protein phosphatases could lead to dephosphorylation of the NHE and V-type H+ pump. This alteration may prevent them from becoming adequately stimulated to elicit pHi recovery in response to acid loading.
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PMID:ETA receptor mediated inhibition of intracellular pH regulation in cultured bovine corneal epithelial cells. 965 2

Simian virus 40 (SV40) is an oncogenic DNA virus that induces malignant transformation. Endothelin (ET), a 21 amino acid peptide with mitogenic and anti-apoptotic effects, binds to G-protein coupled ETA and ETB receptors. This report examines the effect of SV40 transformation on the expression of ET receptors. Results from receptor binding and reverse transcription (RT)-polymerase chain reaction (PCR) studies show that human lung fibroblasts IMR90 and WI38 express both ETA and ETB receptors, and that the expression of both receptors is significantly down-regulated in IMR90-SV40 and WI38-SV40, cell lines derived from IMR90 and WI38 with SV40 virus transformation. Receptor binding and RT-PCR analysis of 3A(tPA-30-1), a cell line derived from human placenta that expresses a higher level of SV40 large T-antigen at the permissive temperature (33 degrees C) than at the restrictive temperature (40 degrees C), further demonstrates that there is an inverse correlation between the expression of SV40 T-antigen and the expression of ET receptor. ET-1 and fetal bovine serum stimulate DNA synthesis in non-transformed cells; however, proliferation of transformed cells is independent of either fetal bovine serum or ET-1. We conclude that SV40 transformation down-regulates the expression of ET receptors, and that expression of ET receptors is inversely correlated with expression of SV40 large T-antigen.
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PMID:SV40 virus transformation down-regulates endothelin receptor. 1023 53

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