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)

1. The characteristics of endothelium-dependent hyperpolarization in rat hepatic artery have been further investigated in the presence of inhibitors of cyclo-oxygenase and nitric oxide synthase. 2. Using sharp micro-electrodes, the smooth muscle hyperpolarization induced by acetylcholine, KCl or 1-ethyl-2-benzimidazolinone (1-EBIO) in intact hepatic arteries was abolished by 30 micronM barium plus 500 nM ouabain. 3. In vessels without endothelium, the smooth muscle hyperpolarization induced by KCl was not reduced by 30 micronM barium alone. However, in the presence of barium the effects of KCl were partially inhibited by 100 nM ouabain and essentially abolished by 500 nM ouabain. 4. Using sharp micro-electrodes, the hyperpolarization of both the smooth muscle and the endothelium induced by 1-EBIO or by acetylcholine was unaffected by 100 nM iberiotoxin. However, in the presence of 100 nM charybdotoxin, the effects of 1-EBIO were abolished whereas those of acetylcholine were only partially reduced. The hyperpolarization induced by levcromakalim was unaffected by either charybdotoxin or iberiotoxin. 5 Under whole-cell patch-clamp recording conditions, 1-EBIO induced a voltage-insensitive, charybdotoxin-sensitive K+ current in cultured endothelial cells but was without effect on K+ currents in smooth muscle cells isolated from hepatic arteries. 6 It is concluded that the endothelium-dependent hyperpolarization of smooth muscle induced by either acetylcholine or by 1-EBIO in rat hepatic artery is initially associated with the opening of endothelial calcium-sensitive K+-channels insensitive to iberiotoxin. The resulting accumulation of K+ in the myoendothelial space activates an isoform of Na+/K+-ATPase which is sensitive to low concentrations of ouabain.
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PMID:Further investigation of endothelium-derived hyperpolarizing factor (EDHF) in rat hepatic artery: studies using 1-EBIO and ouabain. 1055 44

NtrC (nitrogen regulatory protein C) is a bacterial enhancer-binding protein of 469 residues that activates transcription by sigma(54)-holoenzyme. A region of its transcriptional activation (central) domain that is highly conserved among homologous activators of sigma(54)-holoenzyme-residues 206-220-is essential for interaction with this RNA polymerase: it is required for contact with the polymerase and/or for coupling the energy from ATP hydrolysis to a change in the conformation of the polymerase that allows it to form transcriptionally productive open complexes. Several mutant NtrC proteins with amino acid substitutions in this region, including NtrC(A216V) and NtrC(G219K), have normal ATPase activity but fail in transcriptional activation. We now report that other mutant forms carrying amino acid substitutions at these same positions, NtrC(A216C) and NtrC(G219C), are capable of activating transcription when they are not bound to a DNA template (non-DNA-binding derivatives with an altered helix-turn-helix DNA-binding motif at the C terminus of the protein) but are unable to do so when they are bound to a DNA template, whether or not it carries a specific enhancer. Enhancer DNA remains a positive allosteric effector of ATP hydrolysis, as it is for wild-type NtrC but, surprisingly, appears to have become a negative allosteric effector for some aspect of interaction with sigma(54)-holoenzyme. The conserved region in which these amino acid substitutions occur (206-220) is equivalent to the Switch I region of a large group of purine nucleotide-binding proteins. Interesting analogies can be drawn between the Switch I region of NtrC and that of p21(ras).
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PMID:"Switch I" mutant forms of the bacterial enhancer-binding protein NtrC that perturb the response to DNA. 1055 87

We studied intracellular calcium ([Ca(2+)](i)) in acid-secreting bone-attached osteoclasts, which produce a high-calcium acidic extracellular compartment. Acid secretion and [Ca(2+)](i) were followed using H(+)-restricted dyes and fura-2 or fluo-3. Whole cell calcium of acid-secreting osteoclasts was approximately 100 nM, similar to cells on inert substrate that do not secrete acid. However, measurements in restricted areas of the cell showed [Ca(2+)](i) transients to 500-1000 nM consistent with calcium puffs, transient (millisecond) localized calcium elevations reported in other cells. Spot measurements at 50-ms intervals indicated that puffs were typically less than 400 ms. Transients did not propagate in waves across the cell in scanning confocal measurements. Calcium puffs occurred mainly over regions of acid secretion as determined using lysotracker red DND99 and occurred at irregular periods averaging 5-15 s in acid secreting cells, but were rare in lysotracker-negative nonsecretory cells. The calmodulin antagonist trifluoperazine, cell-surface calcium transport inhibitors lanthanum or barium, and the endoplasmic reticulum ATPase inhibitor thapsigargin had variable acute effects on the mean [Ca(2+)](i) and puff frequency. However, none of these agents prevented calcium puff activity, suggesting that the mechanism producing the puffs is independent of these processes. We conclude that [Ca(2+)](i) transients in osteoclasts are increased in acid-secreting osteoclasts, and that the puffs occur mainly near the acid-transporting membrane. Cell membrane acid transport requires calcium, suggesting that calcium puffs function to maintain acid secretion. However, membrane H(+)-ATPase activity was insensitive to calcium in the 100 nM-1 microM range. Thus, any effects of calcium puffs on osteoclastic acid transport must be indirect.
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PMID:Intracellular calcium puffs in osteoclasts. 1058 92

Hypoglycemia (zero glucose) initially depolarized the membrane and increased the spontaneous firing of rat midbrain dopaminergic neurones (more than 50%) intracellularly recorded in an in vitro slice preparation. Under single-electrode voltage-clamp mode (V(h) -55 mV), this transient phase correlated with an inward current of -18 pA. In all the cells tested (n=30), an inhibition fully developed over 16.9 min of hypoglycemia and was associated with a hyperpolarization of the membrane (7.7 mV) or outward current (95.6 pA). Upon re-application of a control solution (glucose 10 mM) a rebound hyperpolarization/outward current developed. The depression of firing was only seen when the artificial cerebrospinal fluid (ACSF) contained less than 1 mM glucose. In addition, the period of time required to block the spontaneous activity decreased, by diminishing the extracellular concentration of glucose from 1 to 0 mM. The hypoglycemia-induced outward current was associated with an increase in membrane conductance and reversed polarity at -100.4 mV, close to the reversal potential of K(+). The post-hypoglycemic outward current was not associated with an increase in membrane conductance and did not reverse. The K(+)-ATP channel blockers, tolbutamide (300 microM-1 mM) and glibenclamide (3-30 microM) reduced the hypoglycemia-induced inhibition. In addition, the blocker of the Ca(++)-activated K(+)-channels, charybdotoxin (100-400 nM) partially counteracted the hypoglycemic hyperpolarization. Furthermore, barium (100-300 microM) fully antagonized the hypoglycemia-induced inhibition. The post-hypoglycemic hyperpolarization/outward current was not observed in cells treated with the Na(+)/K(+) ATPase pump inhibitor strophanthidin (1-3 microM). Our data suggest that midbrain dopaminergic cells respond to glucose deprivation with a hyperpolarization generated by the opening of several K(+) channels (sulphonylurea-sensitive, charybdotoxin-sensitive and sulphonylurea and charybdotoxin-insensitive) and by the activation of the Na(+)/K(+) ATPase pump after the hypoglycemic period.
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PMID:Pharmacological identification of the K(+) currents mediating the hypoglycemic hyperpolarization of rat midbrain dopaminergic neurones. 1072 12

Membrane proteins located on vesicles (v-SNAREs) and on the target membrane (t-SNAREs) mediate specific recognition and, possibly, fusion between a transport vesicle and its target membrane. The activity of SNARE molecules is regulated by several soluble cytosolic proteins. We have cloned a bovine brain cDNA encoding a conserved 117 amino acid polypeptide, denoted Golgi-associated ATPase Enhancer of 16 kDa (GATE-16), that functions as a soluble transport factor. GATE-16 interacts with N-ethylmaleimidesensitive factor (NSF) and significantly stimulates its ATPase activity. It also interacts with the Golgi v-SNARE GOS-28 in an NSF-dependent manner. We propose that GATE-16 modulates intra-Golgi transport through coupling between NSF activity and SNAREs activation.
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PMID:GATE-16, a membrane transport modulator, interacts with NSF and the Golgi v-SNARE GOS-28. 1074 18

Aut7p, a protein recently implicated in autophagic events in the yeast Saccharomyces cerevisiae, exhibits significant homology to a mammalian protein, p16, herein termed GATE-16 (Golgi-associated ATPase Enhancer of 16 kDa), a novel intra-Golgi transport factor. Here we provide evidence for the involvement of Aut7p in different membrane trafficking processes. Aut7p largely substitutes for the activity of GATE-16 in mammalian intra-Golgi transport in vitro. In vivo, AUT7 interacts genetically with endoplasmic reticulum to Golgi SNAREs, specifically with BET1 and SEC22. Aut7p interacts physically with the following two v-SNAREs: Bet1p, which is involved in endoplasmic reticulum to Golgi vesicular transport, and Nyv1p, implicated in vacuolar inheritance. We suggest that, in addition to its role in autophagocytosis, Aut7p has pleiotropic effects and participates in at least two membrane traffic events.
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PMID:Aut7p, a soluble autophagic factor, participates in multiple membrane trafficking processes. 1083 68

The active Na(+)-independent transport of L-alanine across the duodenal mucosa of the lizard Gallotia galloti was studied in Ussing-type chambers using a computer-controlled voltage clamp. Addition of L-alanine to the Na(+)-free bathing solutions resulted in a significant L-alanine absorption (J(net)) that was paralleled by an increase in transepithelial short-circuit current (I(sc)) and potential difference (PD) without apparent changes in the tissue conductance. The concentration dependence of J(net), PD, and I(sc) displayed Michaelis-Menten kinetics. L-alanine-induced electrical changes were completely inhibited by external alkaline pH or by the H(+)-ionophore carbonyl cyanide m-chlorophenyl-hydrazone in the bathing solution. The alanine-induced electrogenicity was dependent on the presence of extracellular K(+) and could be blocked by serosal Ba(2+) or mucosal orthovanadate. These results suggest the existence of an H(+)-coupled L-alanine cotransport at the apical membrane of enterocytes. The favorable H(+) driving force is likely to be maintained by an apical vanadate-sensitive H(+)-K(+)-ATPase, allowing the extrusion of H(+) in an exchange with K(+). Potassium exit through a basolateral barium-sensitive conductance provides the key step for the electrogenicity of L-alanine absorption.
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PMID:Membrane mechanisms for electrogenic Na(+)-independent L-alanine transport in the lizard duodenal mucosa. 1095 50

In the rat hepatic artery, the endothelium-derived hyperpolarizing factor (EDHF) was identified as potassium. Potassium hyperpolarizes the smooth muscles by gating inward rectified potassium channels and by activating the sodium-potassium adenosine triphosphatase (Na(+)-K(+)ATPase). Our goal was to examine whether potassium could explain the EDHF in porcine coronary arteries. On coronary strips, the inhibition of calcium-dependent potassium channels with 100 nM apamin plus 100 microM charibdotoxin inhibited the endothelium-dependent relaxations, produced by 10 nM substance P and 300 nM bradykinin and resistant to nitro-L-arginine and indomethacin. The scavenging of potassium with 2 mM Kryptofix 2.2.2 abolished the endothelium-dependent relaxations produced by the kinins and resistant to nitro-L-arginine and indomethacin. Forty microM 18alpha glycyrrethinic acid or 50 microM palmitoleic acid, both uncoupling agents, did not inhibit these kinin relaxations. Therefore, EDHF does not result from an electrotonic spreading of an endothelial hyperpolarization. Barium (0.3 nM) did not inhibit the kinin relaxations resistant to nitro-L-arginine and indomethacin. Therefore, EDHF does not result from the activation of inward rectified potassium channels. Five hundred nM ouabain abolished the endothelium-dependent relaxations resistant to nitro-L-arginine and indomethacin without inhibiting the endothelium-derived NO relaxation. The perifusion of a medium supplemented with potassium depolarized and contracted a coronary strip; however, the short application of potassium hyperpolarized the smooth muscles. These results are compatible with the concept that, in porcine coronary artery, the EDHF is potassium released by the endothelial cells and that this ion hyperpolarizes and relaxes the smooth muscles by activating the Na(+)-K(+)ATPase.
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PMID:An evaluation of potassium ions as endothelium-derived hyperpolarizing factor in porcine coronary arteries. 1105 18

Absorption of NH(4)(+) by the medullary thick ascending limb (MTAL) is a key event in the renal handling of NH(4)(+), leading to accumulation of NH(4)(+)/NH(3) in the renal medulla, which favors NH(4)(+) secretion in medullary collecting ducts and excretion in urine. The Na(+)-K(+)(NH(4)(+))-2Cl(-) cotransporter (BSC1/NKCC2) ensures approximately 50-65% of MTAL active luminal NH(4)(+) uptake under basal conditions. Apical barium- and verapamil-sensitive K(+)/NH(4)(+) antiport and amiloride-sensitive NH(4)(+) conductance account for the rest of active luminal NH(4)(+) transport. The presence of a K(+)/NH(4)(+) antiport besides BSC1 allows NH(4)(+) and NaCl absorption by MTAL to be independently regulated by vasopressin. At the basolateral step, the roles of NH(3) diffusion coupled to Na(+)/H(+) exchange or Na(+)/NH(4)(+) exchange, which favors NH(4)(+) absorption, and of Na(+)/K(+)(NH(4)(+))-ATPase, NH(4)(+)-Cl(-) cotransport, and NH(4)(+) conductance, which oppose NH(4)(+) absorption, have not been quantitatively defined. The increased ability of the MTAL to absorb NH(4)(+) during chronic metabolic acidosis involves an increase in BSC1 expression, but fine regulation of MTAL NH(4)(+) transport probably requires coordinated effects on various apical and basolateral MTAL carriers.
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PMID:Ammonium carriers in medullary thick ascending limb. 1113 9

We identified two mammalian ULK1 (Unc-51-like kinase involved in neurite extension) binding proteins by yeast two-hybrid screening. Both proteins showed high structural similarity to microtubule-associated protein (MAP) light chain 3 (LC3). One is identical to the Golgi-associated ATPase Enhancer of 16 kDa (GATE-16), an essential factor for intra-Golgi transport [39]. The other is identical to the gamma 2-subunit of GABA-A receptor associated protein (GABARAP) which has a possible role in receptor transport [46]. Using the yeast two-hybrid system and the in vitro GST pull-down assay, we found that the N-terminal proline/serine rich (PS) domain of ULK1 (amino acid 287-416) is required for ULK1-GATE-16 and ULK1-GABARAP protein interactions. However, the kinase activity of ULK1 affected neither ULK1-GATE-16 nor ULK1-GABARAP interaction. Immunohistochemical analysis using ULK1 and GABARAP antibodies showed that the ULK1 and the GABARAP proteins co-localized to many kind of neurons such as pyramidal cells of the hippocampus, mitral cells of the olfactory bulb, and Purkinje cells of the cerebellum. In HeLa cells, endogenous ULK1 and tagged GABARAP showed punctate structures in the cytosol, and were colocalized. These results suggest that the interaction of ULK1 and GABARAP is important to vesicle transport and axonal elongation in mammalian neurons.
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PMID:Interaction of the Unc-51-like kinase and microtubule-associated protein light chain 3 related proteins in the brain: possible role of vesicular transport in axonal elongation. 1114 1

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