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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 purpose of this study is to better define the relationship of the 53 kDa
glycoprotein
(GP-53) of the sarcoplasmic reticulum (SR) to other SR proteins. Towards that end the effects of antibodies against GP-53 on the rotational dynamics of maleimide spin-labeled proteins of SR of rabbit skeletal muscle were investigated. The labeling protocol used in this study provided 1.6 +/- 0.3 moles spin label incorporated per 10(5) g SR protein. Labeling specificity studies indicated that nearly 70% of the label bound specifically to the Ca(2+)-
ATPase
, with the remainder bound to GP-53. Using saturation-transfer electron paramagnetic resonance (ST-EPR), it was determined that the rotational mobility (i.e., the rate of rotation) of the spin-labeled SR proteins decreased greater than 5-fold upon preincubation of MSL-SR with an antiserum against the GP-53, while preincubation of MSL-SR with preimmune serum had no effect. Preincubation of MSL-SR with a monoclonal antibody against the GP-53 produced a 4-fold decrease in the rotational mobility of the MSL-SR proteins compared to control measurements. Further, these effects showed a marked calcium dependence: the decrease in the rotational mobility of the MSL-SR proteins preincubated with anti-GP-53 antibodies in 500 microM Ca2+ was 3-6-fold greater than that of MSL-SR preincubated with antibodies in 5 mM EGTA. While MSL was bound to both Ca(2+)-
ATPase
and GP-53, model calculations indicated that the decreases observed in the rotational mobility of the MSL-SR proteins caused by the anti-GP-53 monoclonal antibodies were too large to be accounted for by effects on GP-53 alone. The calculations suggest that the rotational rate of Ca(2+)-
ATPase
was also diminished by anti-GP-53 monoclonal antibodies, indicating an interaction between GP-53 and Ca(2+)-
ATPase
in the SR membrane.
...
PMID:Antibodies against the 53 kDa glycoprotein inhibit the rotational dynamics of both the 53 kDa glycoprotein and the Ca(2+)-ATPase in the sarcoplasmic reticulum membrane. 185 Oct 41
Rat 6 fibroblast cell lines expressing wild-type chicken liver
glycoprotein
receptor (CHL) or chimeric receptors with alternate cytoplasmic tails were produced to study the role of the cytoplasmic tail in mediating receptor localization in coated pits and endocytosis of ligand. Cells expressing CHL or cells expressing a hybrid receptor that contains the cytoplasmic tail of the asialoglycoprotein receptor display high-efficiency endocytosis of N-acetylglucosamine-conjugated bovine serum albumin in experiments designed to measure an initial internalization step, as well as in studies of continuous uptake and degradation. Substitution of the cytoplasmic tail by the equivalent domain of rat Na,K-ATPase beta subunit or by a stretch of Xenopus laevis globin beta chain does not abolish endocytosis but decreases the endocytosis rate constant from 15%-16%/min to 2.4% and 6.5%/min, respectively. Electron microscopy was used to visualize the
glycoprotein
binding sites at the surface of Rat 6 cells transfected with the various receptors. The percentage of receptors found in coated areas ranged from 32% for CHL to 9% for the Na,K-
ATPase
hybrid, indicating that clustering in coated pits correlates with efficiency of endocytosis. We concluded that replacement of the CHL cytoplasmic tail with unrelated sequences does not prevent, but decreases to varying extents, coated-pit localization and endocytosis efficiency. The construct with NH2-terminal globin tail lacks a signal for high-efficiency localization in coated pits but nevertheless is directed to the pits by an alternative mechanism.
...
PMID:Endocytosis via coated pits mediated by glycoprotein receptor in which the cytoplasmic tail is replaced by unrelated sequences. 196 94
Autoantibodies in the sera of patients with pernicious anemia recognize, in addition to the alpha subunit of the gastric H+/(+)-
ATPase
, an abundant gastric microsomal
glycoprotein
of apparent Mr 60,000-90,000. Herein we have colocalized the
glycoprotein
and the alpha subunit of the gastric H+/K(+)-
ATPase
to the tubulovesicular membranes of the parietal cell by immunogold electron microscopy. Moreover, the
glycoprotein
and the alpha subunit were coimmunoprecipitated, and copurified by immunoaffinity chromatography, with an anti-
glycoprotein
monoclonal antibody. The pig
glycoprotein
was purified by chromatography on tomato lectin-Sepharose, and five tryptic peptides from the purified
glycoprotein
were partially sequenced. The complete amino acid sequence, deduced from the nucleotide sequence of overlapping cDNA clones, showed 33% similarity to the sequence of the beta subunit of the pig kidney Na+/K(+)-
ATPase
. We therefore propose that the 60- to 90-kDa
glycoprotein
autoantigen is the beta subunit of the gastric H+/K(+)-
ATPase
and that the alpha and beta subunits of the proton pump are major targets for autoimmunization in autoimmune gastritis.
...
PMID:The 60- to 90-kDa parietal cell autoantigen associated with autoimmune gastritis is a beta subunit of the gastric H+/K(+)-ATPase (proton pump). 197 21
Alkaline phosphatase (AP), a membrane-associated
glycoprotein
which enhances the hydrolysis of monophosphate esters at alkaline pH, is widely distributed in animal tissues. AP activity is increased in a variety of muscle disorders, i.e., myopathies and denervation. Established histochemical methods at the light microscopy level failed to demonstrate AP in skeletal muscles. In the present study we applied the Gomori lead nitrate method for ultrastructural examination of AP in rat gastrocnemius muscles and showed that the enzyme was linked to the sarcolemma of the striated muscle and to the membranes of endothelial cells in adjacent capillaries. In comparison with
ATPase
activity, AP activity was inhibited by both levamisole and a pH of 7.2, but not by ouabain. Hence, it appears that in skeletal muscles AP is active at a high pH and is bound to cell membranes.
...
PMID:Activity of alkaline phosphatase in rat skeletal muscle localized along the sarcolemma and endothelial cell membranes. 198 64
Monoclonal and polyclonal antibodies to the major sarcoplasmic reticulum proteins of rabbit skeletal and canine cardiac muscle have been used to identify and characterize the corresponding components of human cardiac sarcoplasmic reticulum. The Ca2(+)-transporting
ATPase
of human cardiac sarcoplasmic reticulum was identified as a 105,000-Da protein antigenically distinct from its rabbit skeletal muscle counterpart. Human cardiac sarcoplasmic reticulum also contained 53,000- 155,000- and 165,000-Da glycoproteins antigenically related to the low and high molecular weight glycoproteins of canine cardiac and rabbit skeletal muscle sarcoplasmic reticulum. The ryanodine-sensitive Ca2+ channel of human cardiac sarcoplasmic reticulum was identified as a 400,000-Da protein antigenically related to its counterparts in canine cardiac and rabbit skeletal muscle. Human cardiac calsequestrin was identified as a 52,000-Da protein. Human phospholamban was identified as a 29,000-Da substrate for phosphorylation by cAMP-dependent protein kinase. Immunoblots of sarcoplasmic reticulum from the normal left ventricles of four unmatched organ donors and the excised failing left ventricles of nine patients with idiopathic dilated cardiomyopathy were compared in search of qualitative differences in the protein patterns of the failing hearts. No such differences were found with respect to the Ca2+
ATPase
, the 53,000-Da
glycoprotein
, the ryanodine-sensitive Ca2+ channel, calsequestrin or phospholamban. In contrast, the 165,000-Da
glycoprotein
band, present in all four preparations from nonfailing hearts, was absent from three of nine preparations from failing hearts, and staining of the 155,000-Da
glycoprotein
in these three preparations appeared to be relatively increased. The absence of the 165,000-Da
glycoprotein
band may identify or reflect a pathogenetic mechanism in a subset of patients with idiopathic dilated cardiomyopathy.
...
PMID:Identification and characterization of proteins in sarcoplasmic reticulum from normal and failing human left ventricles. 208 60
The 53-kDa
glycoprotein
and sarcalumenin (160-kDa
glycoprotein
) were extracted from rabbit skeletal muscle sarcoplasmic reticulum with EGTA and purified by fractionation on DEAE-Sephadex A-25 and lentil lectin-Sepharose 4B. Sarcalumenin was shown to bind up to 400 nmol of Ca2+/mg of protein at pH 7.5, which is equivalent to binding of approximately 35 mol of Ca2+/mol of protein. The apparent dissociation constant was 300 microM in the presence of 20 mM KCl and 600 microM in 150 mM KCl. The 53-kDa
glycoprotein
did not bind any Ca2+ under the conditions examined. Immunoblot analysis of isolated sarcoplasmic reticulum subfractions demonstrated the presence of the two glycoproteins in both the longitudinal sarcoplasmic reticulum and the terminal cisternae. Their concentrations were higher, however, in the longitudinal sarcoplasmic reticulum vesicles. Comparative immunoelectron microscopic studies using monoclonal antibodies revealed a codistribution of the 53-kDa
glycoprotein
with the Ca2(+)-
ATPase
in all regions of the free sarcoplasmic reticulum. A similar distribution was found for sarcalumenin, although immunolabeling was much weaker. The colocalization of the 53-kDa
glycoprotein
and sarcalumenin with the Ca2(+)-
ATPase
and the Ca2+ binding properties of sarcalumenin suggest that the glycoproteins may be involved in the sequestration of Ca2+ in the nonjunctional regions of the sarcoplasmic reticulum.
...
PMID:Purification, calcium binding properties, and ultrastructural localization of the 53,000- and 160,000 (sarcalumenin)-dalton glycoproteins of the sarcoplasmic reticulum. 211 42
The role of structural and functional factors in the processes of the bacterial cell interaction with colloid Au (0) and ionic Au (III) states has been investigated. It is shown that the bacterial walls of Bacillus sp. 4368 aggregating with colloid gold contain
glycoprotein
with isoelectric point 11. Glycoprotein from cell walls indifferent to colloid gold strain (Bacillus subtilis 168) has pHiso = 5. At the same time the cells of both strains accumulate Au (III) introduced into a medium in the form of tetrachloroaurate. The process is energy-dependent because it is suppressed by azide, uncouplers of oxidative phosphorylation and dicyclohexyl carbodiimide (DCCD). The role of
ATPase
of Au (III) accumulation has been studied on Bacillus sp. 4368 plasma membrane vesicles. The
ATPase
activity is inhibited by 70, 50 and 35-50% by vanadate, DCCD and Au (III), respectively, but it does not change in the presence of dinitrophenol and NaN3. ATP but not ADP and AMP stimulated the Au (III) accumulation by membrane vesicles and prevents the inhibitory action of azide but neither of DNP or DCCD. In the energized state membrane vesicles link gold sol particles. It has been assumed that the Au (III) accumulation is associated with the functioning of transmembrane potential generators, the metal being localized on the membrane surface.
...
PMID:[The role of membrane processes in Au(III) and Au(0) accumulation by bacteria]. 213 89
Although the Ca2(+)-
ATPase
is the predominant protein species of the skeletal sarcoplasmic reticulum membrane, the functional significance of other minor protein species remains unresolved. The proposition has been tested that the membrane-bound 53-kDa
glycoprotein
(GP-53) may be required or significantly involved in regulating the coupling of ATP hydrolysis to Ca2+ transport by the Ca2(+)-
ATPase
. Ca2(+)-ATPases originating from preparations with and without GP-53 were reconstituted into phosphatidylcholine liposomes, and Ca2+ uptake and pumping efficiency were determined. The reconstituted Ca2+ pump from all preparations transported Ca2+ with high efficiency (Ca2+:ATP greater than 1.5). The results demonstrate that GP-53 is not required to couple ATP hydrolysis to Ca2+ transport. Additionally, the observed high coupling efficiency is inconsistent with GP-53 functioning as a substantial positive regulator of coupling.
...
PMID:High efficiency Ca2+ transport by the sarcoplasmic reticulum Ca2(+)-ATPase in the absence of the 53-kilodalton glycoprotein. 214 28
The sodium pump Na,K-
ATPase
, located in the plasma membrane of all animal cells, is a member of a family of ion-translocating ATPases that share highly homologous catalytic subunits. In this family, only Na,K-
ATPase
has been established to be a heterodimer of catalytic (alpha) and
glycoprotein
(beta) subunits. The beta subunit has not been associated with the pump's transport or enzymatic activity, and its role in Na,K-
ATPase
function has been, until recently, a puzzle. In this review we describe what is known about the structure of beta and summarize evidence that expression of both alpha and beta subunits is required for Na,K-
ATPase
activity, that inhibition of glycosylation causes a decrease in accumulation of both alpha and beta subunits, and we provide evidence that pretranslational up-regulation of beta alone can lead to increased abundance of sodium pumps. These findings are all consistent with the hypothesis that the beta subunit regulates, through assembly of alpha beta heterodimers, the number of sodium pumps transported to the plasma membrane.
...
PMID:The sodium pump needs its beta subunit. 215 41
In this review we have summarized the work of ourselves and others on ionic and hormonal regulation of synthesis of the sodium pump. No one central theme emerges from this summary. Rather, it appears that abundance can be regulated pre-translationally or posttranslationally. As reviewed recently, regulation of the expression of the beta
glycoprotein
subunit, which has no described enzymatic function, can regulate holoenzyme expression. In the kidney this is exemplified in our studies in LLC-PK1 cells and proximal tubule cells where pre-translational regulation of beta expression is key to increasing holoenzyme abundance, and also exemplified in the hypothyroid renal cortex where regulation of beta protein abundance post-translationally appears to impact the abundance of enzymatically active NaK-
ATPase
. Future studies in the field of ionic regulation of NaK-
ATPase
must be directed at elucidating the signals that mediate the response, and at how these signals alter the NaK-
ATPase
biosynthetic pathway from expression of alpha and beta genes, through to turnover of the mature NaK-
ATPase
heterodimer.
...
PMID:Ionic regulation of the biosynthesis of NaK-ATPase subunits. 216 28
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