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1.
In situ plasma membrane H+-ATPase activity was monitored during pH-regulated dimorphism of Candida albicans using permeabilized cells. ATPase activity was found to increase in both the bud and germ tube forming populations at 135 min which coincides with the time of evagination. Upon reaching the terminal phenotype the mycelial form exhibited higher H+-ATPase activity as compared to the yeast form. At the time of evagination H+-efflux exhibited an increase. K+ depletion resulted in attenuated ATPase activity and glucose induced H+-efflux. The results demonstrate that ATPase may play a regulatory role in dimorphism of C. albicans and K+ acts as a modulator.Abbreviations PM Plasma membrane - pHi intracellular pH - Pi inorganic phosphorus - TET Toluene: Ethanol: Triton X-100  相似文献   

2.
Summary To study the physiological role of the bidirectionally operating, furosemide-sensitive Na+/K+ transport system of human erythrocytes, the effect of furosemide on red cell cation and hemoglobin content was determined in cells incubated for 24 hr with ouabain in 145mm NaCl media containing 0 to 10mm K+ or Rb+. In pure Na+ media, furosemide accelerated cell Na+ gain and retarded cellular K+ loss. External K+ (5mm) had an effect similar to furosemide and markedly reduced the action of the drug on cellular cation content. External Rb+ accelerated the Na+ gain like K+, but did not affect the K+ retention induced by furosemide. The data are interpreted to indicate that the furosemide-sensitive Na+/K+ transport system of human erythrocytes mediates an equimolar extrusion of Na+ and K+ in Na+ media (Na+/K+ cotransport), a 1:1 K+/K+ (K+/Rb+) and Na+/Na+ exchange progressively appearing upon increasing external K+ (Rb+) concentrations to 5mm. The effect of furosemide (or external K+/Rb+) on cation contents was associated with a prevention of the cell shrinkage seen in pure Na+ media, or with a cell swelling, indicating that the furosemide-sensitive Na+/K+ transport system is involved in the control of cell volume of human erythrocytes. The action of furosemide on cellular volume and cation content tended to disappear at 5mm external K+ or Rb+. Thein vivo red cell K+ content was negatively correlated to the rate of furosemide-sensitive K+ (Rb+) uptake, and a positive correlation was seen between mean cellular hemoglobin content and furosemide-sensitive transport activity. The transport system possibly functions as a K+ and waterextruding mechanism under physiological conditiosin vivo. The red cell Na+ content showed no correlation to the activity of the furosemide-sensitive transport system.  相似文献   

3.
Summary Characteristics of the native and reconstituted H+-ATPase from the plasma membrane of red beet (Beta vulgaris L.) were examined. The partially purified, reconstituted H+-ATPase retained characteristics similar to those of the native plasma membrane H+-ATPase following reconstitution into proteoliposomes. ATPase activity and H+ transport of both enzymes were inhibited by vanadate, DCCD, DES and mersalyl. Slight inhibition of ATPase activity associated with native plasma membranes by oligomycin, azide, molybdate or NO 3 was eliminated during solubilization and reconstitution, indicating the loss of contaminating ATPase activities. Both native and reconstituted ATPase activities and H+ transport showed a pH optimum of 6.5, required a divalent cation (Co2+>Mg2+>Mn2+>Zn2+>Ca2+), and preferred ATP as substrate. The Mg:ATP kinetics of the two ATPase activities were similar, showing simple Michaelis-Menten kinetics. Saturation occurred between 3 and 5mM Mg: ATP, with aK m of 0.33 and 0.46mM Mg: ATP for the native and reconstituted enzymes, respectively. The temperature optimum for the ATPase was shifted from 45 to 35°C following reconstitution. Both native and reconstituted H+-ATPases were stimulated by monovalent ions. Native plasma membrane H+-ATPase showed an order of cation preference of K+>NH 4 + >Rb+>Na+>Cs+>Li+>choline+. This basic order was unchanged following reconstitution, with K+, NH 4 + , Rb+ and Cs+ being the preferred cations. Both enzymes were also stimulated by anions although to a lesser degree. The order of anion preference differed between the two enzymes. Salt stimulation of ATPase activity was enhanced greatly following reconstitution. Stimulation by KCl was 26% for native ATPase activity, increasing to 228% for reconstituted ATPase activity. In terms of H+ transport, both enzymes required a cation such as K+ for maximal transport activity, but were stimulated preferentially by Cl even in the presence of valinomycin. This suggests that the stimulatory effect of anions on enzyme activity is not simply as a permeant anion, dissipating a positive interior membrane potential, but may involve a direct anion activation of the plasma membrane H+-ATPase.  相似文献   

4.
Summary The experiments reported here evaluate the capability of isolated intestinal epithelial cells to accomplish net H+ transport in response to imposed ion gradients. In most cases, the membrane potential was kept constant by means of a K+ plus valinomycin voltage clamp in order to prevent electrical coupling of ion fluxes. Net H+ flux across the cellular membrane was examined at pH 6.0 (the physiological lumenal pH) and at pH 7.4 using methylamine distribution or recordings of changes in media pH. Results from both techniques suggest that the cells have an Na+/H+ exchange system in the plasma membrane that is capable of rapid and sustained changes in intracellular pH in response to an imposed Na+ gradient. The kinetics of the Na+/H+ exchange reaction at pH 6.0 [K t for Na+=57mm,V max=42 mmol H+/liter 3OMG (3-O-methylglucose) space/min] are dramatically different from those at pH 7.4 (K t for Na+=15mm,V max=1.7 mmol H+/liter 3OMG space/min). Experiments involving imposed K+ gradients suggest that these cells have negligible K+/H+ exchange capability. They exhibit limited but measurable H+ conductance. Anion exchange for base equivalents was not detected in experiments performed in media nominally free of bicarbonate.  相似文献   

5.
Summary The apical membrane K+ permeability of the newt proximal tubular cells was examined in the doubly perfused isolated kidney by measuring the apical membrane potential change (V a change) during alteration of luminal K+ concentration and resultant voltage deflections caused by current pulse injection into the lumen.V a change/decade for K+ was 50 mV at K+ concentration higher than 25mm, and the resistance of the apical membrane decreased bt 58% of control when luminal K+ concentration was increased from 2.5 to 25mm. Ba2+ (1mm in the lumen) reducedV a change/decade to 24 mV and increased the apical membrane resistance by 70%. These data support the view that Ba2+-sensitive K+ conductance exists in the apical membrane of the newt proximal tubule. Furthermore, intracellular K+ activity measured by K+-selective electrode was 82.4 ± 3.6 meq/liter, which was higher than that predicted from the Nernst equation for K+ across both cell membranes. Thus, it is concluded that cell K+ passively diffuses, at least in part, through the K+ conductive pathway of the apical membrane.  相似文献   

6.
An ATPase whose activity was stimulated by K+ was identified in Rhizobium sp. UMKL 20. The synthesis of the ATPase was repressed by high levels of K+. The enzyme had a pH optimum of about 8.0. It was highly specific for cations and only K+ appeared to be able to stimulate the enzyme. In terms of divalent cation specificity, both Mn2+ and Mg2+ stimulated K+-ATPase activity. ATP was the only nucleotide capable of supporting substantial activity. Vanadate was an inhibitor of the enzyme.Abbreviations K+-ATPase K+-stimulated ATPase - DCCD N,N1-dichlorohexylcarbodiimide - HEPES N-2-hydroxyethylpiperazine-N1-2-ethanesulfonic acid - PMSF phenylmethylsulfonyl fluoride - TCA trichloroacetic aci  相似文献   

7.
Summary Human red cells were prepared with various cellular Na+ and K+ concentrations at a constant sum of 156mm. At maximal activation of the K+ conductance,g K(Ca), the net efflux of K+ was determined as a function of the cellular Na+ and K+ concentrations and the membrane potential,V m , at a fixed [K+]ex of 3.5mm.V m was only varied from (V m E K)25 mV and upwards, that is, outside the range of potentials with a steep inward rectifying voltage dependence (Stampe & Vestergaard-Bogind, 1988).g K(Ca) as a function of cellular Na+ and K+ concentrations atV m =–40, 0 and 40 mV indicated a competitive, voltage-dependent block of the outward current conductance by cellular Na+. Since the present Ca2+-activated K+ channels have been shown to be of the multi-ion type, the experimental data from each set of Na+ and K+ concentrations were fitted separately to a Boltzmann-type equation, assuming that the outward current conductance in the absence of cellular Na+ is independent of voltage. The equivalent valence determined in this way was a function of the cellular Na+ concentration increasing from 0.5 to 1.5 as this concentration increased from 11 to 101mm. Data from a previous study of voltage dependence as a function of the degree of Ca2+ activation of the channel could be accounted for in this way as well. It is therefore suggested that the voltage dependence ofg K(Ca) for outward currents at (V m E K)>25 25 mV reflects a voltage-dependent Na+ block of the Ca2+-activated K+ channels.  相似文献   

8.
Xylem parenchyma cells are situated around the (apoplastic) xylem vessels and are involved in the control of the composition of the xylem sap by exporting and resorbing solutes. We investigated properties of the K+ inward rectifier in the plasma membrane of these cells by performing patch clamp experiments on protoplasts in the whole-cell configuration. Inward currents were sensitive to the K+ channel blocker TEA+ at a high concentration (20 mm). Barium, another classical K+ channel blocker, inhibited K+ currents with a K i of about 1.3 mm. In contrast to guard cells, the cytosolic Ca2+ level proved to be ineffective in regulating the K+ conductance at hyperpolarization. External Ca2+ blocked currents weakly in a voltage-dependent manner. From instantaneous current-voltage curves, we identified a binding site in the channel pore with an electrical distance of about 0.2 to 0.5. Lanthanum ions reduced the inward current in a voltage-dependent manner and simultaneously displaced the voltage at which half of the channels are in the open state to more positive values. This finding was interpreted as resulting from a sum of two molecular effects, an interaction with the mouth of the channel that causes a reduction of current, and a binding to the voltage sensor, leading to a shielding of surface charges and, subsequently, a modulation of channel gating.A comparison between the K+ inward rectifier in xylem parenchyma cells, guard cells and KAT1 from Arabidopsis leads to the conclusion that these rectifiers form subtypes within one class of ion channels. The ineffectiveness of Ca2+ to control K+ influx in xylem parenchyma cells is interpreted in physiological terms.  相似文献   

9.
Using the two-microelectrode voltage clamp technique in Xenopus laevis oocytes, we estimated Na+-K+-ATPase activity from the dihydroouabain-sensitive current (I DHO) in the presence of increasing concentrations of tetraethylammonium (TEA+; 0, 5, 10, 20, 40 mm), a well-known blocker of K+ channels. The effects of TEA+ on the total oocyte currents could be separated into two distinct parts: generation of a nonsaturating inward current increasing with negative membrane potentials (V M) and a saturable inhibitory component affecting an outward current easily detectable at positive V M. The nonsaturating component appears to be a barium-sensitive electrodiffusion of TEA+ which can be described by the Goldman-Hodgkin-Katz equation, while the saturating component is consistent with the expected blocking effect of TEA+ on K+ channels. Interestingly, this latter component disappears when the Na+-K+-ATPase is inhibited by 10 m DHO. Conversely, TEA+ inhibits a component of I DHO with a k d of 25±4 mm at +50 mV. As the TEA+-sensitive current present in I DHO reversed at –75 mV, we hypothesized that it could come from an inhibition of K+ channels whose activity varies in parallel with the Na+-K+-ATPase activity. Supporting this hypothesis, the inward portion of this TEA+-sensitive current can be completely abolished by the addition of 1 mm Ba2+ to the bath. This study suggests that, in X. laevis oocytes, a close link exists between the Na-K-ATPase activity and TEA+-sensitive K+ currents and indicates that, in the absence of effective K+ channel inhibitors, I DHO does not exclusively represent the Na+-K+-ATPase-generated current.  相似文献   

10.
Summary The effects of cAMP, ATP and GTP on the Ca2+-dependent K+ channel of fresh (1–2 days) or cold-stored (28–36 days) human red cells were studied using atomic absorption flame photometry of Ca2+-EGTA loaded ghosts which had been resealed to monovalent cations in dextran solutions. When high-K+ ghosts were incubated in an isotonic Na+ medium, the rate constant of Ca2+-dependent K+ efflux was reduced by a half on increasing the theophylline concentration to 40mm. This effect was observed in ghosts from both fresh and stored cells, but only if they were previously loaded with ATP. The inhibition was more marked when Mg2+ was added together with ATP, and it was abolished by raising free Ca2+ to the micromolar level. Like theophylline, isobutyl methylxanthine (10mm) also affected K+ efflux. cAMP (0.2–0.5mm), added both internally and externally (as free salt, dibutyryl or bromide derivatives), had no significant effect on K+ loss when the ghost free-Ca2+ level was below 1 m, but it was slightly inhibitory at higher concentrations. The combined presence of cAMP (0.2mm) plus either theophylline (10mm), or isobutyl methylxanthine (0.5mm), was more effective than cAMP alone. This inhibition showed a strict requirement for ATP plus Mg2+ and it, was not overcome by raising internal Ca2+. Ghosts from stored cells seemed more sensitive than those from fresh cells, to the combined action of cAMP and methylxanthines. Loading ATP into ghosts from fresh or stored cells markedly decreased K+ loss. Although this effect was observed in the absence of added Mg2+ (0.5mm EDTA present), it was potentiated upon adding 2mm Mg2+. The K+ efflux from ATP-loaded ghosts was not altered by dithio-bis-nitrobenzoic acid (10mm) or acridine orange (100 m), while it was increased two-to fourfold by incubating with MgF2 (10mm), or MgF2 (10mm)+theophylline (40mm), respectively. By contrast, a marked efflux reduction was obtained by incorporating 0.5mm GTP into ATP-containing ghosts. The degree of phosphorylation obtained by incubating membranes with (-32P)ATP under various conditions affecting K+ channel activity, was in direct correspondence to their effect on K+ efflux. The results suggest that the K+ channel of red cells is under complex metabolic control, via cAMP-mediated and nonmediated mechanisms, some which require ATP and presumably, involve phosphorylation of the channel proteins.  相似文献   

11.
Summary In renal tubular epithelial cells, oxidant injury results in several metabolic alterations including ATP depletion, decreased Na+K+ ATPase activity, and altered intracellular sodium and potassium content. To investigate the recovery of LLC-PK1 cells following oxidant injury and to determine if recovery can be accelerated, we induced oxidant stress in LLC-PK1 cells with 500 μM hydrogen peroxide for 60 min. Identical cohorts of oxidant-stressed cells were incubated in recovery medium without epidermal growth factor (EGF) or recovery medium containing 25 ng EGF per ml. ATP levels, Na+K+ ATPase activity in whole cells, Na+K+ ATPase activity in disrupted cells, and intracellular sodium and potassium ion content were determined at 0, 5, 24, 48, and 72 h following oxidant injury in each cohort of cells. In oxidant-stressed cells recovering in medium without EGF, ATP levels, Na+K+ ATPase activity, and intracellular ion content improved but continued to remain substantially lower than control values at all time points following oxidant stress. In cells recovering in medium with EGF, ATP levels, Na+K+ ATPase activity, and the intracellular potassium-to-sodium ratio were significantly higher at nearly all time points than values in cells recovering in medium alone. In cells recovering with added EGF, Na+K+ ATPase activity had improved to control levels, whereas ATP levels and intracellular ion content approached control values by 72 h following oxidant stress. We conclude that oxidant-mediated ATP depletion, altered Na+K+ ATPase activity, and intracellular ion content remain depressed for several d following oxidant stress and that EGF accelerated recovery of LLC-PK1 cells from oxidant injury.  相似文献   

12.
The aim of this work was to examine the effects of changes in external K+ concentration (K o ) around its physiological value, of various K+ channels blockers, including internal Cs+, of vacuolar H+-ATPase inhibitors and of the protonophore CCCP on the resting potential and the voltage-dependent K+ current of differentiated neuroblastoma x glioma hybrid NG108-15 cells using the whole-cell patch-clamp technique. The results are as follows: (i) under standard conditions (K o =5 mm) the membrane potential was –60±1 mV. It was unchanged when K o was decreased to 1 mm and was depolarized by 4±1 mV when Ko was increased to 10 mm. (ii) Internal Cs+ depolarized the membrane by 21±3 mV. (iii) The internal application of the vacuolar H+-ATPase inhibitors N-ethylmaleimide (NEM), NO 3 and bafilomycin A1 (BFA) depolarized the membrane by 15±2, 18±2 and 16±2 mV, respectively, (iv) When NEM or BFA were added to the internal medium containing Cs+, the membrane was depolarized by 45±1 and 42±2 mV, respectively. (v) The external application of CCCP induced a transient depolarization followed by a prolonged hyperpolarization. This hyperpolarization was absent in BFA-treated cells. The voltage-dependent K+ current was increased at negative voltages and decreased at positive voltages by NEM, BFA and CCCP. Taken together, these results suggest that under physiological conditions, the resting potential of NG108-15 neuroblastoma cells is maintained at negative values by both voltage-dependent K+ channels and an electrogenic vacuolar type H+-ATPase.This work was supported by a grant from INSERM (CRE 91 0906).  相似文献   

13.
These experiments examined effects of several ligands on the K+ p-nitrophenylphosphatase activity of the (Na+,K+)-ATPase in membranes of a rat brain cortex synaptosomal preparation. K+-independent hydrolysis of this substrate by the synaptosomal preparation was studied in parallel; the rate of hydrolysis in the absence of K+ was approximately 75% less than that observed when K+ was included in the incubation medium. The response to the H+ concentrations was different: K+-independent activity showed a pH optimum around 6.5–7.0, while the K+-dependent activity was relatively low at this pH range. Ouabain (0.1 mM) inhibited K+-dependent activity 50%; a concentration 10 times higher did not produce any appreciable effect on the K+-independent activity. Na+ did not affect K+-independent activity at all, while the same ligand concentration inhibited sharply the K+-dependent activity; this inhibition was not competitive with the substrate,p-nitrophenyl phosphate. K+-dependent activity was stimulated by Mg2+ with low affinity (millimolar range), and 3 mM Mg2+ produced a slight stimulation of the activity in absence of K+, which could be interpreted as Mg2+ occupying the K+ sites. Ca2+ had no appreciable effect on the activity in the absence of K+. However, in the presence of K+ a sharp inhibition was found with all Ca2+ concentrations studied. ATP (0.5 mM) did not affect the K+-independent activity, but this nucleotide behaved as a competitive inhibitor top-nitrophenylphosphate. Pi inhibited activity in the presence of K+, competively to the substrate, so it could be considered as the second product of the reaction sequence.Abbreviations used p-NPP p-nitrophenylphosphate - p-NPPase rho-nitrophenylphosphatase activity  相似文献   

14.
Summary The conductance of the Ca2+-activated K+ channel (g K(Ca)) of the human red cell membrane was studied as a function of membrane potential (V m ) and extracellular K+ concentration ([K+]ex). ATP-depleted cells, with fixed values of cellular K+ (145mm) and pH (7.1), and preloaded with 27 m ionized Ca were transferred, with open K+ channels, to buffer-free salt solutions with given K+ concentrations. Outward-current conductances were calculated from initial net effluxes of K+, correspondingV m , monitored by CCCP-mediated electrochemical equilibration of protons between a buffer-free extracellular and the heavily buffered cellular phases, and Nernst equilibrium potentials of K ions (E K) determined at the peak of hyperpolarization. Zero-current conductances were calculated from unidirectional effluxes of42K at (V m –E K)0, using a single-file flux ratio exponent of 2.7. Within a [K+]ex range of 5.5 to 60mm and at (V m –E K) 20 mV a basic conductance, which was independent of [K+]ex, was found. It had a small voltage dependence, varying linearly from 45 to 70 S/cm2 between 0 and –100 mV. As (V m –E K) decreased from 20 towards zero mVg K(Ca) increased hyperbolically from the basic value towards a zero-current value of 165 S/cm2. The zero-current conductance was not significantly dependent on [K+]ex (30 to 156mm) corresponding toV m (–50 mV to 0). A further increase ing K(Ca) symmetrically aroundE K is suggested as (V m –E K) becomes positive. Increasing the extracellular K+ concentration from zero and up to 3mm resulted in an increase ing K(Ca) from 50 to 70 S/cm2. Since the driving force (V m –E K) was larger than 20 mV within this range of [K+]ex this was probably a specific K+ activation ofg K(Ca). In conclusion: The Ca2+-activated K+ channel of the human red cell membrane is an inward rectifier showing the characteristic voltage dependence of this type of channel.  相似文献   

15.
Summary The specific activity of the Na+/K+/Cl cotransporter was assayed by measuring the initial rates of furosemide-inhibitable86Rb+ influx and efflux. The presence of all three ions in the external medium was essential for cotransport activity. In cultured smooth muscle cells furosemide and bumetanide inhibited influx by 50% at 5 and 0.2 m, respectively. The dependence of furosemide-inhibitable86Rb+ influx on external Na+ and K+ was hyperbolic with apparentK m values of 46 and 4mm, respectively. The dependence on Cl was sigmoidal. Assuming a stoichiometry of 112 for Na+/K+/Cl, aK m of 78mm was obtained for Cl. In quiescent smooth muscle cells cotransport activity was approximately equal to Na+ pump activity with each pathway accounting for 30% of total86Rb+ influx. Growing muscle cells had approximately 3 times higher cotransport activity than quiescent ones. Na+ pump activity was not significantly different in the gorwing and quiescent cultures. Angiotensin II (ANG) stimulated cotransport activity as did two calcium-transporting ionophores, A23187 and ionomycin. The removal of external Ca2+ prevented A23187, but not ANG, from stimulating the cotransporter. Calmodulin antagonists selectively inhibited86Rb+ influx via the cotransporter. Beta-adrenoreceptor stimulation with isoproterenol, like other treatments which increase cAMP, inhibited cotransport activity. Cultured porcine endothelial cells had 3 times higher cotransport activity than growing muscle cells. Calmodulin antagonists inhibited cotransport activity, but agents which increase cAMP or calcium had no effect on cotransport activity in the endothelial cells.  相似文献   

16.
Summary Using intracellular microelectrode technique, we investigated the changes in membrane voltage (V) of cultured bovine pigmented ciliary epithelial cells induced by different extracellular solutions. (1)V in 213 cells under steady-state conditions averaged –46.1±0.6 mV (sem). (2) Increasing extracellular K+ concentration ([K+] o ) depolarizedV. Addition of Ba2+ could diminish this response. (3) Depolarization on doubling [K+] o was increased at higher [K+] o (or low voltage). (4) Removing extracellular Ca2+ decreasedV and reduced theV amplitude on increasing [K+] o . (5)V was pH sensitive. Extra-and intracellular acidification depolarizedV; alkalinization induced a hyperpolarization.V responses to high [K+] o were reduced at acidic extracellular pH. (6) Removing K o + depolarized, K o + readdition after K+ depletion transiently hyperpolarizedV. These responses were insensitive to Ba2+ but were abolished in the presence of ouabain or in Na+-free medium. (7) Na+ readdition after Na+ depletion transiently hyperpolarizedV. This reaction was markedly reduced in the presence of ouabain or in K+-free solution but unchanged by Ba2+. It is concluded that in cultured bovine pigmented ciliary epithelial cells K+ conductance depends on Ca2+, pH and [K+] o (or voltage). An electrogenic Na+/K+-transport is present, which is stimulated during recovery from K+ or Na+ depletion. This transport is inhibited by ouabain and in K+-or Na+-free medium.  相似文献   

17.
Summary Addition of glucose or the nonmetabolizable analogue -methyl-d-glucoside to rabbit proximal tubules suspended in a glucoseand alanine-free buffer caused a sustained increase in intracellular Na+ content (+43±7 nmol · (mg protein)–1) and a concomitant but larger decrease in K+ content (–72±11 nmol· (mg protein)–1). A component of the net K+ efflux was Ba2+ insensitive, and was inhibited by high (1mm) but not low (10 m) concentrations of the diuretics, furosemide and bumetanide. The increase in intracellular Na+ content is consistent with the view that the increased rates of Na+ and water transport seen in the proximal tubule in the presence of glucose can be attributed (at least in part) to a stimulation of basolateral pump activity by an increased [Na+] i .  相似文献   

18.
Diabetes mellitus induces a decrease in sodium potassium-adenosine triphosphatase (Na+/K+- ATPase) activity in several tissues in the rat and red blood cells (RBC) and nervous tissue in human patients. This decrease in Na+/K+- ATPase activity is thought to play a role in the development of long term complications of the disease. Angiotensin enzyme inhibitors (ACEi) and angiotensin-II receptor antagonists (ARBs) reduce proteinuria and retard the progression of renal failure in patients with IDDM and diabetic rats. We investigated the effects of captopril and losartan, which are used in the treatment of diabetic nephropathy, on Na+/K+- ATPase activity. Captopril had an inhibitory effect on red cell plasma membrane Na+/K+ ATPase activity, but losartan did not. Our study draws attention to the inhibitory effect of captopril on Na+/K+ ATPase activity. Micro and macro vascular complications are preceeding mortality and morbidity causes in diabetes mellitus. There is a strong relationship between the decrease in Na+/K+ ATPase activity and hypertension. The non-sulphydryl containing ACEi and ARBs must be the choice of treatment in hypertensive diabetic patients and diabetic nephropathy.  相似文献   

19.
Summary Transbasal electrical potential (V b) and intraepithelial potassium chemical activity ((K+) i ) were measured in isolated midgut epithelium of tobacco hornworm (Manduca sexta) using double-barrelled glass microelectrodes. Values ofV b ranging from +8 to –48 mV (relative to blood side) were recorded. For all sites, (K+) i is within a few millivolts of electrochemical equilibrium with the blood side bathing solution. Sites more negative than –20 mV show relatively high sensitivity ofV b to changes in blood side K+ concentration: 43% of these sites can be marked successfully with iontophoresed Lucifer yellow CH dye and shown to represent epithelial cells of all three types present in the midgut. In about half of successful marks, dye-coupling of several adjacent cells is seen. Low potential sites — those withV b less negative than –20 mV —typically do not show high sensitivity ofVb to changes of external K+, but rather (K+) i rapidly approaches the K+ activity of blood side bathing solution. These sites can seldom be marked with Lucifer yellow (4% success). The mean (K+) i of the high potential sites is 95±29 (sd)mm under standard conditions, a value which is in accord with published values for the whole tissue.  相似文献   

20.
Employing a simple one-step sucrose gradient fractionation method, gastric mucosal membrane of Syrian hamster was prepared and demonstrated to be specifically enriched in H+,K+-ATPase activity. The preparation is practically devoid of other ATP hydrolyzing activity and contains high K+-stimulated ATPase, activity of at least 4–5 fold compared to basal ATPase activity. The H+,K+-ATPase showed hydroxylamine-sensitive phosphorylation and K+-dependent dephosphorylation of the phospho-enzyme, characteristic inhibition by vanadate, omeprazole and SCH 28080, and nigericin-reversible K+-dependent H+-transport — properties characteristic of gastric proton pump One notable difference with H+,K+-ATPase of other species has been the observation of valinomycin-independent H+ transport in such membrane vesicles. It is proposed that such H+,K+-ATPase-rich hamster gastric mucosal membrane preparation might provide a unique model to study physiological aspects of H+,K+-ATPase-function in relation to HCl secretion.  相似文献   

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