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Query: EC:3.6.3.1 (
Mg2+-ATPase
)
1,484
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Activation and inhibition of Ca2+-ATPase of
calmodulin
-depleted human erythrocyte membranes by oleic acid and a variety of other fatty acids have been measured. Low concentrations of oleic acid stimulate the enzyme activity, both in the presence and in the absence of
calmodulin
. Concomitantly, the affinity of the membrane bound enzyme to
calmodulin
progressively decreases due to competitive interactions of
calmodulin
and oleic acid with the enzyme. Removal of oleic acid from the membrane by serum albumin extinguishes the activating effect of oleic acid and restores the ability of the enzyme to bind
calmodulin
with high affinity. High concentrations of oleic acid induce an almost complete and irreversible loss of enzyme activity which cannot be abolished by removal of oleic acid. Despite a complete loss of enzyme activity, binding of
calmodulin
to membranes is approximately normal after removal of oleic acid. Activities of (Na+ + K+)-ATPase,
Mg2+-ATPase
and acetylcholine esterase, as well as the total protein content, show no gross changes upon treatment of membranes with increasing amounts of oleic acid, which seems to exclude that membrane solubilisation by oleic acid causes an inactivation of the enzyme.
...
PMID:Effects of fatty acids on activity and calmodulin binding of Ca2+-ATPase of human erythrocyte membranes. 613 52
Erythrocyte membranes, isolated after step-wise hemolysis in buffered sucrose (Tris-sucrose membranes), showed higher Ca2+
Mg2+-ATPase
activity than erythrocyte membranes obtained after hemolysis in Tris-HCl, and washing in EDTA (Tris-EDTA membranes). In Tris-sucrose membranes, the activity was not stimulated by the addition of monovalent cations, or
calmodulin
. Differences reported for the activity and properties of Ca2+
Mg2+-ATPase
between Tris-EDTA membranes of Duchenne patients and controls, were not found in Tris-sucrose membranes. Also the activity and properties of the Ca2+-pump in resealed erythrocyte membranes were not changed.
...
PMID:Ca2+ transport in erythrocytes from patients with Duchenne muscular dystrophy. 613 95
Sarcolemma (SL) vesicles, isolated from pig heart, contain both a Ca2+-
calmodulin
-dependent protein kinase (CaM-PK) and a Ca2+-dependent
Mg2+-ATPase
(Ca2+/Mg2+)-ATPase). Some of their properties have been compared: their affinity for Ca2+ ions, dependence on exogenous
calmodulin
(
CaM
) and sensitivity to the anti-CaM drug calmidazolium (R24571). The properties of Ca2+-CaM-dependent brain phosphodiesterase (PDE) have also been examined. R24571 appeared to be the most potent inhibitor from brain PDE. For the three enzymes studied, exogenously added
CaM
was able to antagonize the R24571 inhibition, although the efficiency to counteract was rather low in the case of the SL Ca2+/
Mg2+-ATPase
. R24571 decreased the affinity of the Ca2+/
Mg2+-ATPase
for Ca2+ ions (KCa 0.35 versus 0.75 microM) and exerted an inhibition non-competitive with Ca2+ ions on the other CaM-dependent enzymes. Membrane-bound
CaM
, which is involved in controlling the Ca2+/
Mg2+-ATPase
, appeared to be present in a stoichiometry varying from 1:1 to 1:4 compared to the 32P-intermediate of the ATPase. R24571 treatment of SL vesicles selectively solubilized a number of proteins in the molecular range of 13-20 kD, which may include
CaM
. The results suggest that different mechanisms are involved in the
CaM
control of the two SL enzymes studied.
...
PMID:Inhibition of Ca2+-dependent protein kinase and Ca2+/Mg2+-ATPase in cardiac sarcolemma by the anti-calmodulin drug calmidazolium. 613 71
Cardiac sarcoplasmic reticulum plays a critical role in the excitation-contraction cycle and hormonal regulation of heart cells. Catecholamines exert their ionotropic action through the regulation of calcium transport into the sarcoplasmic reticulum. Cyclic 3'-5'-adenosine monophosphate (cAMP) causes the cAMP-dependent protein kinase to phosphorylate the regulatory protein phospholamban, which results in the stimulation of calcium transport.
Calmodulin
also phosphorylates phospholamban by a calcium-dependent mechanism. We have reported the isolation and purification of phospholamban with low deoxycholate (DOC) concentrations (5 X 10(-6) M). We have also reported the isolation and purification of Ca2+ +
Mg2+-ATPase
with a similar procedure. Both phospholamban and Ca2+ +
Mg2+-ATPase
retained their native properties associated with sarcoplasmic reticulum vesicles. Further, we have shown that the removal of phospholamban from membranes of sarcoplasmic reticulum vesicles uncouples Ca2+-uptake from ATPase without any effect on Ca2+ +
Mg2+-ATPase
activity or Ca2+ efflux. Phospholamban appears to be the substrate for both the Ca2+-
calmodulin
system and the cAMP-dependent protein kinase system. It is found that the phosphorylation of phospholamban by the Ca2+-
calmodulin
system is required for the normal basal level of Ca2+ transport, and that the phosphorylation of phospholamban at another site by the cAMP-dependent protein kinase system causes the stimulation of Ca2+-transport above the basal level. The functional effects of the phosphorylation of phospholamban by cAMP-dependent protein kinase system are expressed only after the phosphorylation of phospholamban with Ca2+-
calmodulin
system. We propose a model for the cardiac Ca2+ +
Mg2+-ATPase
, whereby the enzyme is normally uncoupled from Ca2+ uptake. The enzyme becomes coupled to Ca2+ transport after the first site of phospholamban is phosphorylated with the Ca2+-
calmodulin
system. When the second site of phospholamban is phosphorylated with cAMP-dependent protein kinase both Ca2+ transport and ATPase are stimulated and phospholamban becomes inaccessible to DOC solubilization and trypsin.
...
PMID:Role of phospholamban in regulating cardiac sarcoplasmic reticulum calcium pump. 614 39
Hisanaga and Sakai [Hisanaga, S., & Sakai, H. (1983) J. Biochem. (Tokyo) 93, 87-98] demonstrated that cytoplasmic dynein could be purified, in part, by chromatography on a
calmodulin
-Sepharose 4B affinity column and that the adenosinetriphosphatase (ATPase) activity of the enzyme was stimulated by Ca2+-
calmodulin
. In the present study, we have investigated, in detail, the interaction of cytoplasmic and flagellar dynein from the sea urchin Hemicentrotus pulcherrimus with
calmodulin
(
CaM
) isolated from porcine brain or sea urchin egg. The dynein
Mg2+-ATPase
activity is stimulated 3-8-fold by
calmodulin
from either source. The stimulation is dependent on calcium ions and is inhibited by trifluoroperazine.
CaM
stimulation is sensitive to physiologically regulatory calcium ion concentrations around 1 microM. Activation is also sensitive to pH and occurs maximally at physiological pH near 7.0.
Calmodulin
binds directly to cytoplasmic dynein as judged by cosedimentation in a sucrose density gradient. The binding and enzymatic stimulation occur at
calmodulin
:dynein ratios of 150:1 to 300:1, which are consistent with estimates of in vivo ratios. Cytoplasmic and flagellar dynein ATPase activities are also stimulated by Triton X-100, a nonionic detergent, and by limited protolysis with trypsin. Both of these treatments abolish further activation by
calmodulin
. The possibility of a trypsin-labile,
CaM
binding subunit of the enzyme is discussed. In addition, since both
CaM
and dynein are localized in the mitotic apparatus, we suggest that
CaM
may regulate possible mitotic dynein activity.
...
PMID:Calmodulin interaction with cytoplasmic and flagellar dynein: calcium-dependent binding and stimulation of adenosinetriphosphatase activity. 614 57
Transplantable rat osteosarcoma plasma membrane preparations contain high-affinity and low-affinity calcium-stimulated ATPases. The high-affinity enzyme displayed a K0.5 for calcium of 0.03 microM, a Vmax of 99.2 nmol/min/mg, and a requirement for magnesium ions. It was not inhibited by 20 microM trifluoperazine nor stimulated by the addition of 2 ng of
calmodulin
. Lack of stimulation with exogenous
calmodulin
may be related to the high endogenous
calmodulin
content of the membrane preparations. The low-affinity Ca2+- or
Mg2+-ATPase
displayed a K0.5 for calcium of approximately 2.40 mM (Vmax of 185 nmol/min/mg) and a K0.5 for magnesium of approximately 2.75 mM (Vmax of 250 nmol/min/mg).
...
PMID:High-affinity Ca2+-stimulated and Mg2+-dependent ATPase from rat osteosarcoma plasma membranes. 614 41
Myosin was isolated from extracts of a clonal cell line of pheochromocytoma (PC12) cells by ammonium sulfate fractionation and gel filtration. This myosin consisted of heavy chains and two light chains (20 and 17 kDa). The 20 kDa light chain could be phosphorylated by a protein kinase which was also present in the extracts and which eluted after myosin from the gel filtration column. Myosin phosphorylation was partly inhibited by EGTA and by the
calmodulin
-inhibiting drug trifluoperazine. The
Mg2+-ATPase
of phosphorylated myosin, but not of unphosphorylated myosin, was activated by skeletal muscle actin. Ca2+ did not affect the
Mg2+-ATPase
activity of either myosin preparation at low ionic strength. The phosphorylation of myosin may activate a contractile mechanism controlling the Ca2+-dependent secretion of norepinephrine from the cells.
...
PMID:Myosin and myosin phosphorylation in pheochromocytoma (PC12) cells. 614 68
Caldesmon, a major
calmodulin
- and actin-binding protein of smooth muscle (Sobue, K., Muramoto, Y., Fujita, M., and Kakiuchi, S. (1981) Proc. Natl. Acad. Sci. U. S. A. 78, 5652-5655), has been obtained in highly purified form from chicken gizzard by a modification of a previously published procedure (Ngai, P. K., Carruthers, C. A., and Walsh, M. P. (1984) Biochem. J. 218, 863-870) and was found to cause a significant inhibition of both superprecipitation and actin-activated myosin
Mg2+-ATPase
activity in a system reconstituted from the purified contractile and regulatory proteins without influencing the phosphorylation state of myosin. This inhibitory effect was seen both in the presence and absence of tropomyosin. A Ca2+-and
calmodulin
-dependent kinase which catalyzed phosphorylation of caldesmon was identified in chicken gizzard; this kinase is distinct from myosin light-chain kinase. Caldesmon prepared by
calmodulin
-Sepharose affinity chromatography was contaminated with caldesmon kinase activity and was unable to inhibit actomyosin ATPase activity or superprecipitation. Phosphatase activity capable of dephosphorylating caldesmon was also identified in smooth muscle. These results indicate that caldesmon can inhibit smooth muscle actomyosin ATPase activity in vitro, and this function may itself be subject to regulation by reversible phosphorylation of caldesmon.
...
PMID:Inhibition of smooth muscle actin-activated myosin Mg2+-ATPase activity by caldesmon. 615 36
Mg2+-ATPase
activity was identified in the cytosol of human erythrocytes. A partial purification of this activity was achieved by an initial DEAE-Sephadex column chromatography, followed by gel filtration on Sephadex G-100 and then a second DEAE-Sephadex chromatography procedure. The enzyme appeared in the void volume of the Sephadex G-100 column and was retained on an Amicon XM100A ultrafiltration membrane. The molecular weight of the enzyme was estimated to be 113 000 from SD gels. The above purification protocol yielded an enzyme with an optimal pH between 7.6 and 8.2. The enzyme activity increased linearly between 30 and 44 degrees C. It was stable for several months at -20 degrees C. Magnesium was essential for activity, but the rate attainable with Mn2+ was at least as great as that due to Mg2+. No other divalent cation was able to substitute for Mg2+ or Mn2+. Neither low nor high Ca2+ concentrations significantly affected the enzymatic activity. Substrate specificity studies showed that ATP was the preferred substrate followed by CTP (46% of the rate produced by ATP). Hydrolysis of GTP, UTP, ITP and ADP was less than 10% of the rate seen with ATP. No phosphatase, pyrophosphatase, phosphodiesterase, hexokinase, phosphofructokinase or adenylate cyclase activity could be detected in this enzyme preparation.
Calmodulin
, which stimulates the (Ca2+ + Mg2+)-ATPase of the human erythrocyte membrane, failed to enhance the
Mg2+-ATPase
activity. Of considerable interest, the activity of this
Mg2+-ATPase
was enhanced approximately 5-fold by low concentrations of mercuric ion, p-hydroxymercuribenzoate and DTNB, but was much less sensitive to iodoacetamide.
...
PMID:Partial purification and characterization of a novel Mg2+-dependent ATPase present in the cytosol from human erythrocytes. 615 Jul 30
Plasma membrane enriched fraction isolated from the fundus smooth muscle of rat stomach displayed Ca2+-stimulated ATPase activity in the absence of Mg2+. The Ca2+ dependence of such an ATPase activity can be resolved into two hyperbolic components with a high affinity (Km = 0.4 microM) and a low affinity (Km = 0.6 mM) for Ca2+. Distribution of these high-affinity and low-affinity Ca2+-ATPase activities parallels those of several plasma membrane marker enzyme activities but not those of endoplasmic reticulum and mitochondrial membrane marker enzyme activities. Mg2+ also stimulates the ATPase in the absence of Ca2+. Unlike the
Mg2+-ATPase
and low-affinity Ca2+-ATPase, the plasmalemmal high-affinity Ca2+-ATPase is not sensitive to the inhibitory effect of sodium azide or Triton X-100 treatment. The high-affinity Ca2+-ATPase is noncompetitively inhibited by Mg2+ with respect to Ca2+ stimulation. Such an inhibitory effect of Mg2+ is potentiated by Triton X-100 treatment of the membrane fraction.
Calmodulin
has little effect on the high-affinity Ca2+-ATPase activity of the plasma membrane enriched fraction with or without EDTA pretreatment. Findings of this novel, Mg2+-independent, high-affinity Ca2+-ATPase activity in the rat stomach smooth muscle plasma membrane are discussed with those of Mg2+-dependent, high-affinity Ca2+-ATPase activities previously reported in other smooth muscle plasma membrane preparations in relation to the plasma membrane Ca2+-pump.
...
PMID:A Mg2+-independent high-affinity Ca2+-stimulated adenosine triphosphatase in the plasma membrane of rat stomach smooth muscle. Subcellular distribution and inhibition by Mg2+. 623 48
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