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1.
Liver plasma membranes enriched in bile canaliculi were isolated from rat liver by a modification of the technique of Song et al. (J. Cell Biol. (1969) 41, 124-132) in order to study the possible role of ATPase in bile secretion. Optimum conditions for assaying (Na+ plus K+)-activated ATPase in this membrane fraction were defined using male rats averaging 220 g in weight. (Na+ plus K+)-activated ATPase activity was documented by demonstrating specific cation requirements for Na+ and K+, while the divalent cation, Ca(2+), and the cardiac glycosides, ouabain and scillaren, were inhibitory. (Na+ plus K+)-activated ATPase activity averaged 10.07 plus or minus 2.80 mumol Pi/mg protein per h compared to 50.03 plus or minus 11.41 for Mg(2+)-activated ATPase and 58.66 plus or minus 10.07 for 5'-nucleotidase. Concentrations of ouabain and scillaren which previously inhibited canalicular bile secretion in the isolated perfused rat liver produced complete inhibition of (Na+ plus K+)-activated ATPase without any effect on Mg(2+)-activated ATPase. Both (Na+ plus K+)-activated ATPase and Mg(2+)-activated ATPase demonstrated temperature dependence but differed in temperature optima. Temperature induced changes in specific activity of (Na+ plus K+)-activated ATPase directly paralleled previously demonstrated temperature optima for bile secretion. These studies indicate that (Na+ plus K+)-activated ATPase is present in fractions of rat liver plasma membranes that are highly enriched in bile canaliculi and provide a model for further study of the effects of various physiological and chemical modifiers of bile secretion and cholestasis.  相似文献   

2.
Total, Mg2+, and Na+, K+ ATPase activities were studied in fresh brain homogenates of the audiogenic seizure (AGS)-resistant C57BL/6J (B6) and AGS-susceptible DBA/2J (D2) inbred strains and in 13 B6 X D2 (BXD) recombinant inbred (RI) strains. These activities were also studied in the D2.B6-Iasb congenic mice, that are similar genetically to D2 mice, except for the Iasb gene which inhibits the spread of AGS activity. The total and Mg2+ ATPase activities of the brainstem were significantly lower in the D2 than in the B6 mice at 21 days of age. No differences were found between these strains for Na+,K+ ATPase activity. The total, Mg2+, and Na+,K+ ATPase activities in the B6 brainstem did not change noticeably from 21 to 80 days of age. In the D2 brainstem, however, the Mg2+ activity increased with age, and the Na+,K+ ATPase activity decreased from 30 to 80 days of age. No genetic associations could be found between AGS susceptibility and total or Mg2+ ATPase activities in the D2.B6-Iasb mice or among the 13 BXD RI strains. Hence, differences in genetic background, rather than differences in AGS susceptibility, can account for the lower ATPase activities in 21-day-old D2 mice. Further, the Mg2+ and Na+,K+ ATPase activities appear to be regulated by more than one gene. This study emphasizes the utility of RI and congenic strains for testing the biochemical basis of AGS susceptibility in mice.  相似文献   

3.
The authors evidence a Mg2+ dependent ATPase activity stimulated by Na+ in absence of K+ in bass gill microsomes. As this stimulated ATPase shows different features from "baseline" activity measured in the absence of both Na+ and K+ ions (Mg2+-ATPase) and from 1mM ouabain sensitive (Na+ + K+)-ATPase, it has been ascribed to a distinct Na+-ATPase. In the present paper the optimal conditions for bass gill Na+-ATPase assay and the temperature dependence of the enzyme are reported. Moreover the Na+-ATPase appears to be insensitive to 1mM ouabain and 100% inhibited by 2,5mM ethacrynic acid. It is suggested a parallel diffusion of Na+- and (Na+ + K+)-ATPase and a possible physiological role of Na+ATPase in osmoregulation.  相似文献   

4.
The kinetic data of magnesium and inorganic phosphate inhibition of the (Na+,K+)-dependent ATP hydrolysis are consistent with a model where both ligands act independently and their release in the ATPase cycle is an ordered process where inorganic phosphate is released first. The effects of magnesium on the stimulation of the ATPase activity by Na+, K+ and ATP, and the inhibition of that activity by inorganic phosphate, are consistent with Mg2+ acting both as a 'product' and as a dead-end inhibitor. The dead-end Mg-enzyme complex would be produced with an enzyme form located downstream in the reaction sequence from the point where Mg2+ acts as a 'product' inhibitor. In the absence of K+, Mg2+ inhibition was reduced when either Na+ or ATP concentrations were increased well beyond those concentrations needed to saturate their high-affinity sites. This ATP effect suggests that the dead-end Mg-enzyme complex formation is affected by the speed of the E2-E1 conformational change. The present model is consistent with the formation of an Mg-phosphoenzyme complex insensitive to K+ which could become K+-sensitive in the presence of high Na+ concentrations. These Mg-enzyme complexes appear as intermediaries in the Na+-ATPase activity found in the absence of external Na+ and K+. These results can be interpreted on the basis of Mg2+ binding to a single site in the enzyme molecule. In addition, these experiments provide kinetic evidence indicating that the stimulation by external Na+ of the ATPase activity in the absence of K+ is due to a K+-like action of Na+ on the external K+ sites.  相似文献   

5.
Coated microvesicle fractions isolated from ox forebrain cortex by the ultracentrifugation procedure of Pearse (1) and by the modified, less time consuming method of Keen et al (2) had comparable Ca2+ +Mg2+ dependent ATPase activities (about 9 mumol/h per mg protein). The Na+ +K+ +Mg2+ dependent ATPase activity was 3.2 mumol/h per mg (+/- 1.0, S.D., n = 3) when microvesicles were prepared according to (1) and 1.5 mumol/h per mg (+/- 1.0, S.D., n = 3) when prepared according to (2). Oligomycin, ruthenium red, and trifluoperazine, inhibitors of Ca2+ transport in mitochondria and erythrocyte membranes had no effect on Ca2+ +Mg2+ dependent ATPase from any of the preparations. As demonstrated both by ATPase assays and electron microscopy, coated microvesicles could be bound to immunosorbents prepared with poly-specific antibodies against a coated microvesicle fraction obtained by the method of Pearse (1). The binding could be inhibited by dissolved coat protein using partially purified clathrin. The fraction of coated vesicles eluted from the immunosorbent was purified relative to the starting material as judged by electron microscopy. The Ca2+ +Mg2+ ATPase activity and calmodulin content was copurified with the coated microvesicles and the specific activity of Na+ +K+ +Mg2+ ATPase was decreased. Na+ +K+ +Mg2+ dependent ATPase activity in the coated microvesicle fraction could be ascribed to membranes with the appearance of microsomes. These membranes were also bound to the immunosorbents, but the binding was not influenced by clathrin. The capacity of the immunosorbents for these membranes was less than for the coated microvesicles, resulting in a decrease of Na+ +K+ +Mg2+ dependent ATPase activity in the eluted coated microvesicle fraction. It was concluded that Ca2+ +Mg2+ ATPase activity is not a contamination from plasma membrane vesicles or mitochondrial membranes but seems to be an integral part of the coated vesicle membrane.  相似文献   

6.
Crystallization of alpha 1-acid glycoprotein   总被引:1,自引:0,他引:1  
A possible link between cellular cyclic AMP content and Na+K+ATPase activity was investigated in homogenates of rat kidney. Enzyme kinetics of Mg2+ and Na+K+ATPase were run in the presence of cyclic AMP, dibutyryl cAMP and compounds expected to elevate cyclic AMP levels such as forskolin, a potent adenylate cyclase activator, IBMX, an inhibitor of phosphodiesterases, and the beta-agonist isoproterenol. Medullary Na+K+ATPase is strongly inhibited by cyclic AMP whereas cortical Na+K+ATPase was stimulated in the same conditions. The correlation between ATPase activity and cellular cyclic AMP content supports the concept of a possible regulation of the enzyme by cyclic AMP.  相似文献   

7.
Investigation the influence of calyx[4]arenes C-90, C-91, C-97 and C-99 (codes are indicated) on the enzymatic activity of four functionally different Mg2+ -dependent ATPases from smooth muscle of the uterus: actomyosin ATPase, transporting Ca2+, Mg2+ -ATPase, ouabain-sensible Na+, K+ -ATPase and basal Mg2+ -ATPase. It was shown that calixarenes C-90 and C-91 in concentration 100 microM act multidirectionally on the functionally different Mg2+ -dependent ATP-hydrolase enzymatic systems. These compounds activate effectively the actomyosin ATPase (Ka = 52 +/- 11 microM [Ukrainian character: see text] 8 +/- 2 microM, accordingly), at the same time calixarene C-90 inhibited effectively activity of transporting Ca2+, Mg2+ -ATPase of plasmatic membranes (I(0,5) = 34.6 +/- 6.4 microM), but influence on membrane-bound Na+, K+ -ATPase and basal Mg2+ -ATPase. Calixarene C-91 reduce effectively basal Mg2+ -ATPase activity, insignificantly activating Na+, K+ -ATPase but has no influence on transporting Ca2+, Mg2+ -ATPase activity of plasmatic membranes. Calixarenes C-97 and C-99 (100 microM), which have similar structure, have monodirectional influence on activity of three functionally different Mg2+-dependent ATPases of the myometrium: actomyosin ATPase and two ATPases, that related to the ATP-hydrolases of P-type--Ca2+, Mg2+ -ATPase and Na+, K+ -ATPase of plasmatic membranes. Basal Mg2+ -ATPase is resistant to the action of these two connections. Results of comparative experiments that were obtained by catalytic titration of calixarenes C-97 and C-99 by actomyosin ATPase (I(0,5) = 88 +/- 9 and 86 +/- 8 microM accordingly) and Na+, K+ -ATPase from plasmatic membranes (I(0,5) = 33 +/- 4 and 98 +/- 8 nM accordingly) indicate to the considerably more sensitiveness of Na+, K+ -ATP-ase to these calixarenes than ATPase of contractile proteins. Thus, it is shown that calixarenes have influence on activity of a number of important enzymes, involved in functioning of the smooth muscle of the uterus and related to energy-supplies of the process of the muscle contracting and support of intracellular ionic homeostasis. The obtained results can be useful in further researches, directed at the use of calixarenes as pharmaceutical substance, able to normalize the contractile function of the uterus at some pregnancy pathologies in women's.  相似文献   

8.
The only known cellular action of AlF4- is to stimulate the G-proteins. The aim of the present work is to demonstrate that AlF4- also inhibits 'P'-type cation-transport ATPases. NaF plus AlCl3 completely and reversibly inhibits the activity of the purified (Na+ + K+)-ATPase (Na+- and K+-activated ATPase) and of the purified plasmalemmal (Ca2+ + Mg2+)-ATPase (Ca2+-stimulated and Mg2+-dependent ATPase). It partially inhibits the activity of the sarcoplasmic-reticulum (Ca2+ + Mg2+)-ATPase, whereas it does not affect the mitochondrial H+-transporting ATPase. The inhibitory substances are neither F- nor Al3+ but rather fluoroaluminate complexes. Because AlF4- still inhibits the ATPase in the presence of guanosine 5'-[beta-thio]diphosphate, and because guanosine 5'-[beta gamma-imido]triphosphate does not inhibit the ATPase, it is unlikely that the inhibition could be due to the activation of an unknown G-protein. The time course of inhibition and the concentrations of NaF and AlCl3 required for this inhibition differ for the different ATPases. AlF4- inhibits the (Na+ + K+)-ATPase and the plasmalemmal (Ca2+ + Mg2+)-ATPase noncompetitively with respect to ATP and to their respective cationic substrates, Na+ and Ca2+. AlF4- probably binds to the phosphate-binding site of the ATPase, as the Ki for inhibition of the (Na+ + K+)-ATPase and of the plasmalemmal (Ca2+ + Mg2+)-ATPase is shifted in the presence of respectively 5 and 50 mM-Pi to higher concentrations of NaF. Moreover, AlF4- inhibits the K+-activated p-nitrophenylphosphatase of the (Na+ + K+)-ATPase competitively with respect to p-nitrophenyl phosphate. This AlF4- -induced inhibition of 'P'-type cation-transport ATPases warns us against explaining all the effects of AlF4- on intact cells by an activation of G-proteins.  相似文献   

9.
S. cervi showed particulate bound Ca2+ ATPase and Na+,K(+)-ATPase activities while Mg2+ ATPase was detected in traces. ATPase of S. cervi was also differentiated from the nonspecific p-nitrophenyl phosphatase activity. Female parasite and microfilariae exhibited higher Ca2+ ATPase and Na+,K(+)-ATPase activities than the male adults and the enzyme Na+,K(+)-ATPase was mainly concentrated in the gastrointestinal tract of the filarial parasite. Na+,K(+)-ATPase of the filariid was ouabain-sensitive while Ca2(+)-ATPase activity was regulated by concentration of Ca2+ ions and inhibited by EGTA. Phenothiazines, viz. trifluoperazine, promethazine and chlorpromazine caused significant inhibition of Ca2+ ATPase and Na+,K(+)-ATPase. Diethylcarbamazine was a potent inhibitor of these ATPases. Mebendazole, levamisole and centperazine also caused significant inhibition of the ATPases indicating this enzyme system as a common target for the action of anthelmintic drugs.  相似文献   

10.
The plasma membrane/mitochondrial fractions of Penaeus indicus postlarvae contain Mg2+-dependent ATPase, Na+,K+-stimulated ATPase, Na+-stimulated ATPase and K+-stimulated ATPase. The Na+,K+-activated, Mg2+-dependent ATPase was investigated further in relation to different pH and temperature conditions, and at various concentrations of protein, ouabain, ATP and ions in the incubation medium. In vitro and in vivo effects of lead were studied on the enzyme activity. In vitro lead inhibited the enzyme activity in a concentration-dependent manner with an IC50 value of 204.4 microM. In correlation with in vitro studies, in vivo investigations (both concentration and time dependent) of lead also indicated a gradual inhibition in enzyme activity. A maximum decrease of 85.3% was observed at LC50 (7.2 ppm) of lead for concentration-dependent experiments. In time-dependent studies, the decrease was maximal (81.7%) at 30 days of sublethal exposure (1.44 ppm). In addition, the substrate- and ion-dependent kinetics of Na+,K+-ATPase was studied in relation to in vitro exposure of lead; these studies suggest a non-competitive type of inhibition.  相似文献   

11.
A method is described for the extraction of microsomal ouabain-sensitive (a- + K+)-activated ATPase from separated frog skin epithelium. The method yields a microsomal fraction containing (Na+ K+)-stimulated activity in the range of 30- 40 nmol - mg -1 - min -1 at 26 degrees C. This portion which is also ouabain sensitive, is about half of the total activity in media containing Mg2+, Na+ and K+. These preparations also contain Mg2+-dependent or Ca2+-dependent activities which are not additive and which are not significantly affected by ouabain, Na+, K+ or Li+. The activations of the ouabain-sensitive ATPase activity by Mg2+, Na+, and K+ are similar to those described in other tissues. It is found that Li+ does not substitute for Na+ as an activator but in high concentrations does produce partial activation in the presence of Na+ with no K+. These results are pertinent to the reported observations of ouabain-sensitive Li+ flux across frog skin. It is concluded that this flux is not apparently due to a direct activating effect of Li+ on the sodium pump.  相似文献   

12.
1. Striped bass (Morone saxatilis) were exposed to 0, 0.10, 0.34, or 1.09 micrograms/l tributyltin (TBT) for 14 days. Gill Mg2+ ATPase and serum Na+, K+, Ca2+ and Mg2+ were not altered. Na+K+ATPase was significantly (P less than 0.05) increased (+48%) at 0.10 microgram/l. 2. In striped bass gill homogenates exposed to TBT in vitro, there was significant inhibition of Na+K+ATPase at 106.0 micrograms/l (17.2%) and Mg2+ATPase at 53.0 and 106.0 micrograms/l (16.0% and 24.3%, respectively). 3. In mummichog (Fundulus heteroclitus) gill homogenates, there was significant inhibition of Na+K+ATPase at 25.3 and 50.5 micrograms/l (10.9% and 16.1%) and Mg2+ATPase at 5.1, 25.3, and 50.5 micrograms/l (26.7%, 32.2%, and 36.2%).  相似文献   

13.
Membrane adenosine triphosphatase activities in rat pancreas   总被引:3,自引:0,他引:3  
The membrane ATPase activities present in rat pancreas were studied to investigate the possible role of ATPase enzymes in HCO3(-) secretion in the pancreas. It was found that all the HCO3(-)-sensitive (anion-sensitive) ATPase activity was accountable as pancreatic mitochondrial ATPase, thus supporting the view that a distinct plasma membrane 'bicarbonate-ATPase' is not involved in HCO3(-) secretion in pancreas. A remarkably high Mg+- and CA2+-requiring ATPase activity (30 mumol ATP hydrolysed/min per mg) was found in the plasma membrane fraction (rho = 1.10-1.13). This activity has been characterized in some detail. It is inhibited by p-fluorosulfonylbenzoyladenosine, an affinity label analogue of ATP and the analogue appears to label covalently a protein of Mr approximately 35 000. The (Ca2+ + Mg2+)-ATPase activity did not form a 'phosphorylated-intermediate' and was vanadate-insensitive. These and other tests have served to demonstrate that the (Ca2+ + Mg2+)-ATPase activity is different in properties from (Na+ + K+)-ATPase, Ca2+-ATPase, (H+ + K+)-ATPase or mitochondrial H+-ATPase. Apart from the (Ca2+ + Mg2+)-ATPase of plasma membrane and mitochondrial ATPase, the only other membrane ATPase activities noted were (Na+ + K+)-ATPase, which occurred in the same fractions as the (Ca2+ + Mg2+)-AtPase at rho = 1.10-1.13 and was of surprisingly low activity, and an ATPase activity in light membrane fractions (rho - 1.08-1.09) derived from zymogen granule membranes. At this time, therefore, there is no obvious candidate for an ATPase activity at the luminal surface of pancreatic cells which is directly involved in ion transport, but the results presented here direct attention to the high activity (Ca2+ + Mg2+)-ATPase in the plasma membrane fraction.  相似文献   

14.
The effects of K+ and Na+ on the Ca2+,Mg2+-ATPase of sarcoplasmic reticulum fragments (SRF) were investigated at 1 mM ATP. There was an alteration of the sensitivity of the ATPase to the monovalent cations during storage of the SRF preparation. The Ca2+, Mg2+-ATPase of freshly prepared SRF was slightly activated by 5-10 mM K+ and Na+. Mg2+-ATPase was inhibited by both the monovalent cations to the same extent, and this response to the ions was independent of the freshness of the preparations. After storage of SRF, however, the Ca2+,Mg2+-ATPase was markedly activated by higher concentrations of K+ and Na+ (0.2-0.3 M). K+ and Na+ reduced the Ca uptake at the steady state in freshly prepared SRF, but did not affect pre-steady state uptake. In the presence of oxalate, the rate of Ca accumulation both in fresh and stored preparations was activated by 0.1-0.2 M K+ and Na+. The Ca2+, mg2+-ATPase with oxalate, so-called "extra ATPase," showed the same response to the ions as did the activity without oxalate during storage.  相似文献   

15.
We have prepared human blood lymphocyte membrane vesicles of high purity in sufficient quantity for detailed enzyme analysis. This was made possible by the use of plateletpheresis residues, which contain human lymphocytes in amounts equivalent to thousands of milliliters of blood. The substrate specificity and the kinetics of the cofactor and substrate requirements of the human lymphocyte membrane Na+, K+-ATPase activity were characterized. The Na+, K+-ATPase did not hydrolyze ADP, AMP, ITP, UTP, GTP or TTP. The mean ATPase stimulated by optimal concentrations of Na+ and K+ (Na+, K+-ATPase) was 1.5 nmol of P(i) hydrolyzed, microgram protein-1, 30 min-1 (range 0.9-2.1). This activity was completely inhibited by the cardiac glycoside, ouabain. The K(m) for K+ was approximately 1.0 mM and the K(m) for Na+ was approximately 15 mM. Active Na+ and K+ transport and ouabain-sensitive ATP production increase when lymphocytes are stimulated by PHA. Na+, K+-ATPase activity must increase also to transduce energy for the transport of Na+ and K+. Some studies have reported that PHA stimulates the lymphocyte membrane ATPase directly. We did not observe stimulation of the membrane Na+, K+-ATPase when either lymphocytes or lymphocyte membranes were treated with mitogenic concentrations of PHA. Moreover, PHA did not enhance the reaction velocity of the Na+, K+-ATPase when studied at the K(m) for ATP, Na+, K+ OR Mg++, indicating that it does not alter the affinity of the enzyme for its substrate or cofactors. Thus, our data indicate that the increase in ATPase activity does not occur as a direct result of PHA action on the cell membrane.  相似文献   

16.
The comparative research of catalytic properties of two ATP-hydrolases of the sarcolemma of the smooth muscle of the uterus--ouabaine-sensitive Na+,K+-ATPase and ouabaine-resistent Mg2+-ATPase is carried out. The specific enzymatic activity of Na+,K+-ATPase and Mg2+-ATPase makes 10.2 +/- 0.7 and 18.1 +/- 1.2 mmol P/mg of protein for 1 hour, accordingly. The action of ouabaine on Na+,K+-ATPase is characterized by magnitude of quotient of inhibition I0.5=21.3 +/- 1.5 mkM. Processing of the sarcolemma fraction by digitonin in concentrations 0.001 +/- 0.1% promotes an activation of Na+,K+ATPase and Mg2+- ATPase, and in the first case much more efficiently than in the second. The kinetics of accumulation of the product of ATP-hydrolase reactions of phosphate satisfies the laws of the zero order reaction (incubation time--about 10 min). Na+,K+-ATPase is highly specific concerning the univalent cations--Na+, K+, however Li+ can partially substitute K+. Activity of Mg2+-ATPase is not specific concerning univalent cations. The dependence of Na+,K+-ATPase activity on pH in the range of 6.0-8.0 is characterized by the bell-shaped curve, at the same time the linear dependence on pH is peculiar to Mg2+-ATPase. The functioning of Na+,K+-ATPase is provided only by ATP, in the case of Mg2+-ATPase ATP can be successfully replaced with other nucleotidetriphosphates. It is supposed that the obtained experimental data can be beneficial in further research of membranous mechanisms underlying the cation exchange in the smooth muscles, in particular when studying the role of the plasma membrane in the maintenance of electromechanical coupling in them, and also in the regulation of ionic homeostasis in myocytes.  相似文献   

17.
Inorganic lead ion in micromolar concentrations inhibits Electrophorus electroplax microsomal (Na+ + K+)-adenosine triphosphatase ((Na+ + K+)-ATPase) and K+-p-nitrophenylphosphatase (NPPase). Under the same conditions, the same concentrations of PbCl2 that inhibit ATPase activity also stimulate the phosphorylation of electroplax microsomes in the absence of added Na+. Enzyme activity is protected from inhibition by increasing concentrations of microsomes, ATP, and other metal ion chelators. The kinetics follow the pattern of a reversible noncompetitive inhibitor. No kinetic evidence is elicited for interactions of Pb2+ with Na+, K+, Mg2+, ATP, or p-nitrophenylphosphate. Na+- ATPase, in the absence of K+, and (Na+ + K+)-NPPase activity at low [K+] are also inhibited. ATP inhibition of NPPase is not reversed by Pb2+. The calculated concentrations of free [Pb2+] that produce 50% inhibition are similar for ATPase and NPPase activities. Pb2+ may act at a single independent binding site to produce both stimulation of the kinase and inhibition of the phosphatase activities.  相似文献   

18.
(CaMg)ATPase [(Ca2+ + Mg2+)-dependent ATPase] was partially purified from a microsomal fraction of the smooth muscle of the pig stomach (antrum). Membranes were solubilized with deoxycholate, followed by removal of the detergent by dialysis. The purified (CaMg)ATPase has a specific activity (at 37 degrees C) of 157 +/- 12.1 (7)nmol.min-1.mg-1 of protein, and it is stimulated by calmodulin to 255 +/- 20.9 (7)nmol.min.mg-1. This purification of the (CaMg)ATPase resulted in an increase of the specific activity by approx. 18-fold and in a recovery of the total enzyme activity of 55% compared with the microsomal fraction. The partially purified (CaMg)ATPase still contains some Mg2+-and (Na+ + K+)-dependent ATPase activities, but their specific activities are increased relatively less than that of the (CaMg)ATPase. The ratios of the (CaMg)ATPase to Mg2+- and (Na+ + K+)-dependent ATPase activities increase from respectively 0.14 and 0.81 in the crude microsomal fraction to 1.39 and 9.07 in the purified preparation. During removal of the deoxycholate by dialysis, vesicles were reconstituted which were capable of ATP-dependent Ca2+ transport.  相似文献   

19.
The effects of bivalent (Mg2+, Ca2+, Sr2+) and monovalent (K+, Na+, NH4+) cations on the ATPase activity of subfragment 1 of myosin (SI) with a decreased Mg2+ content (EDTA-SI) were studied. Mg2+ activate the EDTA-SI ATPase, but only in the absence of other activating cations. K+, NH4+, a2+ and Sr2+ have a much stronger activating effect on EDTA-SI ATPase than on Mg-SI (SI enriched with Mg2+) ATPase. Monovalent cations inhibit Mg2+-ATPase and Ca2+-ATPase of EDTA-SI, while K+ and NH4+ activate Sr2+-ATPase of EDTA-SI. Based on experimental results and literary data, a hypothesis on the participation of the cations in the functioning of myosin ATPase was postulated. This hypothesis entails the existence of two closely interconnected cation-binding sites in the vicinity of the myosin active center (one for bivalent and one for monovalent cations); the ATPase activity of myosin is at any moment dependent on the nature of cations present in these two sites. An attempt to explain the role of the cations in the accomplishment of the ATPase reaction by myosin was made.  相似文献   

20.
A Mg(2+)+Na(+)+K(+)-stimulated adenosine triphosphatase (ATPase) preparation was isolated from rat ventral prostate by flotation of microsomal membranes in high-density sucrose solutions. The reaction medium for optimum Na(+)+K(+)-stimulated ATPase activity was found to be: Na(+), 115mm; K(+), 7-10mm; Mg(2+), 3mm; ATP, 3mm; tris buffer, pH7.4 at 38 degrees , 20mm. The average DeltaP(i) (Mg(2+)+Na(+)+K(+) minus Mg(2+)+Na(+)) was 9mumoles/mg. of protein/hr., representing a 30% increase over the Mg(2+)+Na(+)-stimulated ATPase activity. At high concentrations, K(+) was inhibitory to the enzyme activity. Half-maximal inhibition of Na(+)+K(+)-stimulated ATPase activity was elicited by ouabain at 0.1mm. The preparation exhibited phosphatase activity towards ribonucleoside triphosphates other than ATP. However, stimulation of P(i) release by Na(+)+K(+) was observed only with ATP as substrate. The apparent K(m) for ATP for Na(+)+K(+)-stimulated activity was about 0.3x10(-3)m. Ca(2+) inhibited only the Na(+)+K(+)-stimulated ATPase activity. Mg(2+) could be replaced by Ca(2+) but then no Na(+)+K(+) stimulation of ATPase activity was noticed. The addition of testosterone or dihydrotestosterone (17beta-hydroxy-5alpha-androstan-3-one) in vitro at 0.1-10mum under a variety of experimental conditions did not significantly increase the Na(+)+K(+)-stimulated ATPase activity. The enzyme preparations from prostates of orchidectomized rats, however, exhibited a drastic decrease in the specific activity of Na(+)+K(+)-stimulated ATPase; these changes were prevented in the orchidectomized rats by injection of testosterone propionate.  相似文献   

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