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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)
A central belief about ethanol is that it acts mainly by partitioning into the lipid bilayer of membranes. Newer ideas focus on the neuronal synapse and suggest that ethanol can allosterically change protein conformation, as is suggested by studies on GABA-receptor-mediated chloride uptake and on (Na(+)-K+)-
ATPase
. Several studies from my laboratory suggest that ethanol enhances enzymatic cleavage of sialic acid (SA) from gangliosides, and perhaps also glycoproteins, but does so without stimulating enzyme activity, suggesting conformational changes that affect accessibility. I propose a new model for the cell membrane in the synaptic region, which features gangliosides surrounding membrane proteins, with an interspersed film of water creating hydrogen bonds that anchor SA moieties to membrane protein. I believe that we should consider the possibility that an important action of ethanol, and polar anesthetics, is due to hydrophilic, not hydrophobic, properties and the ability to dehydrate the cell-surface microdomain. Our laboratory has recently advanced the theory that ethanol dehydrates a "solvent regulatory site" of membrane (Na(+)-K+)-
ATPase
. This principle might be extended to other enzymes and receptor proteins, as well as to the accessibility of sialoglycoconjugates to sialidase (
neuraminidase
). Hydrogen bonding between SA and polar regions of receptor protein, and the conformation on both imposed by it, would surely be changed by minor degrees of dehydration and substitution of alcohol molecules for water. Ethanol, unlike water, can only hydrogen bond "at one end." Displacement of water by ethanol would not only "free" the SA groups and make them more vulnerable to enzymatic cleavage but also could simultaneously change the conformation of receptor protein. Similarly, ethanol may displace water that links the polar heads of phospholipids to polar portions of receptors proteins. Ethanol may have an even more important and direct effect of substituting for hydrogen-bonded water within protein itself.
...
PMID:Dehydration: a new alcohol theory. 217 30
We found that rhabdomyosarcoma (RMS) subcellular membranes contain sialyltransferase activities for LcOse4Cer and GgOse4Cer acceptors. Chromatographic analyses and
neuraminidase
lability of the sialyltransferase products indicated that the principal site of sialylation was the non-reducing terminal galactosyl moiety. In order to control for the effects of cell density in culture, metastatic S4T18 RMS cells and nonmetastatic F9-4/21 RMS cells were harvested at 2 X 10(4) to 6 X 10(4) per cm2 prior to analyses. Irrespective of metastatic potential, we found that sialyltransferase-specific activities were influenced by cell densities. F9-4/21 cells, for example, at a density of 6 X 10(4), produced membranes with sialyltransferase-specific activities to LcOse4Cer 1.9-fold higher than cells at 2.1 X 10(4)/cm2. Metastatic potential (predetermined in vivo) appeared to be correlated with an accelerated effect of cell density on the sialyltransferase activity to LcOse4Cer. Metastatic S4T18 cells at 6.3 X 10(4)/cm2 yielded membranes with sialyltransferase-specific activities 5.4-fold higher than membranes from cells at 1.9 X 10(4)/cm2. Conversely, fucosyltransferase activities in the presence of LcOse4Cer were highest in non-metastatic F9-4/21 cells at low cell densities. Quantitative analyses of monosialoganglioside fractions of RMS cells were in agreement with the sialyl-transferase studies. HPLC and HPTLC analyses demonstrated the presence of glucosamine-containing monosialoganglioside with Rf identical with the radioactive products of LcOse4Cer sialylation, which increased 4.5-fold on a per mg protein basis as cell densities increased in S4T18 cells in culture from 1.9 X 10(4)/cm2 to 6.3 X 10(4)/cm2. Plasma membrane marker Na+, K+,
ATPase
-specific activity also increased in RMS metastatic cells in a manner comparable to that described for the sialyl-transferase activity to LcOse4Cer. Our results suggest that metastatic potential is expressed in the rate of sialylation at specific membrane sites of RMS intercellular contact. We propose a process of selection for metastasis whereby specific cell surface non-reducing galactosyl termini are recognized by intercellular transferases and lectins in the primary tumor, and the corresponding labile sialylated sites (on disseminated cells) are recognized by host neuraminidases.
...
PMID:Monosialoganglioside biosynthesis by subcellular membranes of rhabdomyosarcoma cell lines differing in metastatic potential. 233
Two isozymes of the Na,K-
ATPase
were purified from rat renal medulla and rat brainstem axolemma, and antisera were raised in rabbits. When antibody titers were measured, two sera showed specificity for either the kidney or axolemma Na,K-ATPases and had limited cross-reactivity which could be removed by cross-adsorption. In blots of polyacrylamide gels, these sera reacted with only the alpha or alpha (+) Na,K-
ATPase
catalytic subunits, while they cross-reacted with both types of beta subunits. Two other sera each recognized both alpha and alpha (+), indicating that the catalytic subunit isozymes have additional shared antigenic determinants. A comparison of the Na,K-ATPases from the brains of different vertebrate species indicates that birds and fish differ from mammals and amphibians in the manifestation of Na,K-ATPases isozymes. Neither
neuraminidase
nor endoglycosidase F treatment eliminated specific antibody reaction or affected the electrophoretic mobilities of the alpha and alpha (+) subunits, although endoglycosidase F increased the mobilities of the two types of beta subunits to similar final apparent molecular weights. Blots of the peptide fragments produced by incomplete papain and trypsin digests of the alpha and alpha (+) subunits were stained with the specific sera, and the patterns of immunoreactive fragments were found to be markedly different. The results suggest that the antigenic differences reside in differences in the primary protein sequences of the two isozymes.
...
PMID:Two isozymes of the Na,K-ATPase have distinct antigenic determinants. 241 Apr 5
We followed the autophosphorylation of cytoskeleton (CS) isolated from control chick embryo cell membranes (CS-C) and from these membranes after influenza virus adsorption (CS-V) under conditions allowing to determine the activity of a single type proteinkinase. The Ca2+ dependent calmodulin (CaM) kinase used different substrates from CS-V than did the c'AMP dependent proteinkinase. The catalytic subunit (c-subunit) of the c'AMP dependent proteinkinase added from outside phosphorylated the same polypeptides than the endogenous c'AMP dependent proteinkinase, the further being more active than the latter. The purified influenza virus incorporated 32P in the presence of the c-subunit only. Incubation of influenza virus with the c-subunit caused morphological changes visible by electron microscopy. The pleomorphy of the particles as well as their electron transmissibility were enhanced in result of structural alterations and rarefaction of surface spikes of the haemagglutinin and
neuraminidase
. The contractibility of CS isolated from normal CEC and of the CS from CEC by 15 min postinfection (p.i.) was determined according to the actomyosin
ATPase
activity. The
ATPase
activity of the cytoskeleton in the presence of the Ca2+/CaM and that in the presence of c'AMP were used as controls. The virus as well as the Ca2+/CaM increased the
ATPase
activity. EGTA had no effect but did not interfere with virus stimulation, while c'AMP blocked the virus-induced enhancement of the
ATPase
activity.
...
PMID:Mechanism of altered cytoskeleton organization in influenza virus infection. 257 May 7
Trophozoites of the parasitic amoeba Entamoeba histolytica HM-1:IMSS possess a surface
neuraminidase
capable of liberating N-acetylneuraminic acid (NANA) from N-acetylneuramin-lactose (alpha 2----3 or alpha 2----6) or mucin in their medium. The
neuraminidase
was found to be membrane associated, with more than 50% of the yield being recovered in the plasma membrane fraction. The
neuraminidase
specific activity of the plasma membrane fraction was six times that of internal membrane fraction enzyme. The optimum pH and temperature for this enzyme were 6.7 and 37 degrees C, respectively. Neuraminidase activity was inhibited by ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid, and the optimum Ca2+ concentration was 2 mM. The microfilament disruptor cytochalasin D (30 micrograms/ml) inhibited motility and
neuraminidase
activity of intact Entamoeba trophozoites. The cytochalasin D-induced loss of surface
neuraminidase
activity was explained in part by a redistribution of enzyme with a loss of plasma membrane enzyme and an increase in intracellular membrane enzyme. A qualitatively similar cytochalasin D effect was observed with two other membrane-associated enzymes, calcium-regulated
ATPase
and acid phosphatase. Membrane-associated enzyme was minimally affected by Triton X-100 and saponin. An N-acetylneuraminic acid aldolase, optimum pH, 7.4, was found in trophozoite homogenate supernatant fractions. NANA and NANA-containing compounds stimulated trophozoite-directed motility. This motility stimulation by NANA-containing compounds did not apparently require prior release of free NANA by the trophozoite surface
neuraminidase
. Entamoeba
neuraminidase
is one of a series of enzymes that may modify the mucus blanket and target cell surface and thereby play a role in the pathogenesis of amebiasis.
...
PMID:A membrane-associated neuraminidase in Entamoeba histolytica trophozoites. 287 86
Sodium plus potassium activated
adenosinetriphosphatase
[(Na,K)
ATPase
] is composed of a catalytic subunit (alpha) and a glycoprotein subunit (beta) of unknown function. A method has been developed to label the beta subunit of purified dog kidney (Na,K)
ATPase
with fluorescent probes. The method consists of oxidation of beta-subunit oligosaccharides, reaction of the resulting aldehydes with fluorescent hydrazides, and reduction of the hydrazones and unreacted aldehydes with NaBH4. Two oxidation methods were compared. Simultaneous treatment with
neuraminidase
and galactose oxidase did not inhibit significantly (Na,K)
ATPase
activity and allowed insertion of up to 11 mol of probe per mol of beta. In contrast, oxidation of (Na,K)
ATPase
oligosaccharides with periodate resulted in 50-80% inhibition of the (Na,K)
ATPase
activity with low or undetectable labeling. Eleven commercial probes and two novel hydrazides were tested for labeling of (Na,K)
ATPase
treated with galactose oxidase and
neuraminidase
. Eight probes did not label (Na,-K)
ATPase
but labeled red cell ghosts oxidized with periodate. Four probes labeled beta specifically but either adsorbed to the membrane tightly, or cross-linked the beta subunits, or formed unstable adducts. Lucifer yellow CH labeled beta specifically without membrane adsorption. Labeling stoichiometries from 1 to 11 mol of lucifer yellow CH per mol of beta were obtained without inhibition of (Na,K)
ATPase
activity and without significant alteration of the anthroylouabain binding capacity or its association and dissociation kinetics. Anthroylouabain specifically bound to the lucifer-labeled (Na,K)
ATPase
had a decreased quantum yield, probably due to resonance energy transfer. This suggests that the sites of lucifer attachment on beta are within energy transfer distance from the cardiac glycoside site on alpha.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Labeling of the glycoprotein subunit of (Na,K)ATPase with fluorescent probes. 298 55
To determine the role of the glycocalyx sialic acids residues in excitation-contraction coupling and the inotropic response to cardiotonic agents, we studied the effect of
neuraminidase
treatment on the response to ouabain, isoproterenol, calcium and reduced extracellular sodium in Langendorff preparations of adult guinea pig hearts. Neuraminidase treatment (0.01 unit/ml, 1 h) reduced the magnitude of the positive inotropic response to 2.5 X 10(-7) M ouabain and the maximum response to 5 X 10(-7) M ouabain by about 46% and 30%, respectively, but did not prevent ouabain toxicity. Neuraminidase treatment did not affect the contractility produced by calcium concentration alterations up to 5 mM calcium or the positive inotropic effect produced by lowering external sodium to as low as 80 mM. The inotropic response to as high as 10(-8) M isoproterenol was also not affected. The contractility response developed to calcium concentrations greater than 5 mM and to 5 X 10(-8) M isoproterenol were significantly reduced (P less than 0.05) by
neuraminidase
treatment. The content of sialic acids in
neuraminidase
-treated hearts used in the above concentration-response studies of ouabain, isoproterenol, calcium, and sodium was reduced by 70.7%, 66.1%, 65.6% and 66.2%, respectively. Neuraminidase treatment had no effect on basal (Na+ - K+)
ATPase
and Mg2+ -
ATPase
activities of (Na+ - K+)
ATPase
-containing membrane preparations of the guinea pig left ventricle. Neuraminidase treatment neither influenced the sensitivity of the enzyme (Na+ - K+)
ATPase
to ouabain inhibition nor did it affect the characteristics of [3H]ouabain binding to the preparation. These results suggest that the sialic acids of the glycocalyx in the guinea pig left ventricle play an important role in part of the inotropic response to subtoxic concentrations of ouabain.
...
PMID:Effect of neuraminidase treatment on the inotropic response to ouabain, isoproterenol and calcium in the guinea pig heart. 299 Sep 69
Purified dog kidney (Na+,K+)-
ATPase
was reacted with tritiated sodium borohydride after treatment with
neuraminidase
and galactose oxidase. This procedure did not affect the
ATPase
activity of the enzyme, and all of the covalently bound radioactivity was found in the beta subunit (Mr 54 000). Papain digestion of the tritiated enzyme produced two labeled fragments of Mr 40 000 and 16 000. Further proteolysis generated an Mr 31 000 peptide from the larger fragment. Unlike the tryptic and chymotryptic sites of the alpha subunit, the sites of papain hydrolysis were insensitive to conformations of the (Na+,K+)-
ATPase
. Determination of the NH2-terminal sequences was used to arrange the fragments within the linear map of the beta chain. Finally, none of the labeled peptides was released from the membrane under nondenaturing conditions. These results are consistent with a model of the beta subunit containing a 40 000-dalton NH2-terminal piece and a 16 000-dalton COOH-terminal piece. Both fragments have extracellularly exposed carbohydrate and at least one membrane-bound domain.
...
PMID:Papain fragmentation of the (Na+,K+)-ATPase beta subunit reveals multiple membrane-bound domains. 300 27
Although the animal cell (Na+ + K+)-
ATPase
is composed of two polypeptide subunits, alpha and beta, very little is known about the beta subunit. In order to obtain information about the structure of this polypeptide, the beta subunit has been investigated using proteolytic fragmentation, chemical modification of carbohydrate residues, and immunoblot analysis. The sialic acid moieties on the oligosaccharide groups on the beta subunit of (Na+ + K+)-
ATPase
were labeled with NaB3H4 after oxidation by sodium periodate, or the penultimate galactose residues on the oligosaccharides were similarly labeled after removal of sialic acid with
neuraminidase
and oxidation by galactose oxidase. All of the carbohydrate residues of the protein are located on regions of the beta subunit that are found on the non-cytoplasmic surface of the membrane. Cleavage of the galactose oxidase-treated, NaB3H4-labeled beta subunit by chymotrypsin at an extracellular site produced labeled fragments of 40 and 18 kDa, indicating multiple glycosylation sites along the polypeptide. Neither the 40 kDa fragment nor the 18 kDa fragment was released from the membrane by chymotrypsin digestion alone, but after cleavage the 40 kDa fragment could be removed from the membrane by treatment with 0.1 M NaOH. This indicates that the 40 kDa fragment does not span the lipid bilayer. The 40 kDa fragment and the 18 kDa fragment are also linked by at least one disulfide bond. The 18 kDa fragment also contains all of the binding sites found on the (Na+ + K+)-
ATPase
for anti-beta subunit antibodies. Both the 40 kDa fragment and the 18 kDa fragment were also generated using papain or trypsin to cleave the beta subunit. These data indicate that the beta subunit of (Na+ + K+)-
ATPase
contains multiple sites of glycosylation, that it inserts into the cell membrane near only one end of the polypeptide, and that one region of the polypeptide is particularly sensitive to proteolytic cleavage relative to the rest of the polypeptide.
...
PMID:Orientation of the beta subunit polypeptide of (Na+ + K+)ATPase in the cell membrane. 301 34
The effects of some gangliosides on active uptake of nonmetabolizable alpha-aminoisobutyric acid (AIB) and Na+, K+-
ATPase
and Ca2+, Mg2+-ATPase activities in superior cervical ganglia (SCG) and nodose ganglia (NG) excised from adult rats were examined during aerobic incubation at 37 degrees C for 2 h. In NG, amino acid uptake was greatly accelerated with the addition of galactosyl-N-acetylgalactosaminyl-[N-acetylneuraminyl]-galactosylgluc osyl ceramide (GM1) (85%) and also with N-acetylgalactosaminyl-[N-acetylneuraminyl]-galactosylglucosyl ceramide (GM2) or [N-acetylneuraminyl]-galactosyl-N-acetylgalactosaminyl-[N-acetyl- neuraminyl]-galactosylglucosyl ceramide (GD1a) (43% each) compared with a nonaddition control at a 5 nM concentration. Under identical conditions, Na+, K+-
ATPase
activity was strongly stimulated with GM1 (180%) and GD1a (93%), whereas Ca2+, Mg2+-ATPase activity showed no change. In SCG, on the other hand, AIB uptake was apparently inhibited (-27%) by addition of GM1, with a slight decrease in Na+, K+-
ATPase
but no change in Ca2+, Mg2+-ATPase activity in the tissue. Both asialo-GM1, in which N-acetylneuraminic acid is deficient, and Forssman glycolipid, which is not present in nervous tissue, failed to produce any significant increase in both SCG and NG not only in amino acid uptake, but also in Na+, K+-
ATPase
activity. A kinetic study of active AIB uptake showed that GM1 ganglioside produced an increase in Km with no change in Vmax in SCG, whereas it caused a decrease in Km with a slight increase in Vmax in NG. Treatment of NG and SCG with
neuraminidase
from Vibrio cholerae, an enzyme that split off sialic acid from polysialoganglioside, leaving GM1 intact, caused little inhibition of the amino acid uptake.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Effect of exogenous gangliosides on amino acid uptake and Na+, K+-ATPase activity in superior cervical and nodose ganglia of rats. 303 95
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