Skeletal muscle Na,K-pump concentration in children and its relationship to cardiac glycoside distribution

Skeletal muscle Na,K-pump (cardiac glycoside receptor) concentration was quantified in 18 0- to 8-year-old human subjects by vanadate facilitated [3H]ouabain binding to intact vastus lateralis samples obtained at autopsy. No age-dependent change in [3H]ouabain binding site concentration was observed. Mean value +/- S.E.M. was 268 +/- 17 pmol/g wet wt. (n = 18), range 182 to 433 pmol/g wet wt. At the age of 1 day, 3.5 month and 8 years and 8 months, unspecific uptake and retention of [3H]ouabain was 1.6, 1.4 and 1.5% of the total uptake and retention; release of specifically bound [3H]ouabain during the washout procedure took place with T 1/2 of 97, 90 and 73 hr; and apparent affinity constants for [3H]ouabain binding (KD) was 1.3 x 10(-8), 0.9 x 10(-8) and 1.2 x 10(-8) mol/l. [3H]Ouabain binding site concentrations and kinetics were in agreement with values from adults except that in children apparent affinity constant (KD) was 1.7 times the value in adults. The observation of no age-dependent changes in human skeletal muscle Na,K-adenosine triphosphatase concentration was at variance with the observations of such changes in animals. The total number of Na,K-pumps in the pool of skeletal muscles increased from 10 to 50 times that in the heart from birth to old age. The skeletal muscle pool of Na,K-pumps seems to constitute a distribution volume of importance during digitalization in children as well as adults.(ABSTRACT TRUNCATED AT 250 WORDS)     

A method for the determination of the total number of 3H-ouabain binding sites in biopsies of human skeletal muscle

A new method based on vanadate facilitated binding of 3H-ouabain has been applied for the quantitative determination of the number of 3H-ouabain binding sites (Na-K-pumps) in needle biopsies of human skeletal muscle. Samples of the vastus lateralis muscle weighing 2-8 mg showed specific and saturable binding of 3H-ouabain with an apparent KD of 1.9 X 10(-8) mol/l. In 20 healthy human subjects in the age range 25-80 years, the number of 3H-ouabain binding sites was 278 +/- 15 pmol/g wet weight with no relation to age or sex. In samples of the intercostal and rectus abdominis muscles, the number of 3H-ouabain binding sites varied from 225 to 280 pmol/g wet weight. These values are at least 2 times higher than those previously reported for human skeletal muscle. The number of 3H-ouabain and 3H-digoxin binding sites were identical, and ouabain (10(-3) mol/l) completely displaced specifically bound 3H-digoxin. When biopsies were frozen in liquid N2 immediately after withdrawal, storage at -20 degrees C for up to 11 weeks caused no significant change in the number of 3H-ouabain binding sites. The method allows quantitative determination of the number of 3H-ouabain binding sites in standard biopsies of human skeletal muscle to be performed by simple procedures within a few hours. This can be used for the study of conditions where the number of Na-K-pumps is known to undergo fluctuations.     

Cable parameters, sodium, potassium, chloride, and water content, and potassium efflux in isolated external intercostal muscle of normal volunteers and patients with myotonia congenita

In isolated fiber bundles of external intercostal muscle from each of 13 normal volunteers and each of 6 patients with myotonia congenita, some or all of the following were measured: concentrations of Na(+), K(+), and Cl(-), extracellular volume, water content, K(+) efflux, fiber size, fiber cable parameters, and fiber resting potentials.Muscle from patients with myotonia congenita differed significantly (0.001 相似文献   

Abnormalities of sodium transport by sodium, potassium-activated adenosine triphosphatase in erythrocytes from obese children

1. Intracellular Na+ concentration [Na+]i and Na+ extrusion catalysed by sodium potassium-activated adenosine triphosphatase (Na+, K+-pump) were evaluated in erythrocytes from 21 obese children and 20 normal weight- and age-matched controls. 2. Obese children showed a significantly decreased Vmax. for Na+, K+-pump-mediated Na+ efflux (5638 +/- 338 vs 7597 +/- 335 mumol h-1 litre-1 of cells mean +/- SEM, P = 0.01), while [Na+]i (9.3 +/- 0.3 vs 9.1 +/- 0.5 mmol/litre of cells, mean +/- SEM, NS) and Na+ efflux in fresh cells (2380 +/- 153 vs 2533 +/- 180 mumol h-1 litre-1 of cells, mean +/- SEM, NS) were similar in both groups. 3. Mean diastolic blood pressure was significantly higher in obese children than in controls, although both groups were normotensive (73.8 +/- 1.3 vs 66.2 +/- 1.9 mmHg, mean +/- SEM, P = 0.009). 4. Abnormal Na+, K+-pump activity is present in individuals with idiopathic obesity. 5. The possible link between obesity and blood pressure regulation may be mediated through modifications in Na+,K+-pump activity.     

Calcium transport and adenosine triphosphatase activities of erythrocyte membranes in congenital spherocytosis.

Calcium transport from red cells was measured in seventeen patients with congenital or hereditary spherocytosis (HS). The efflux remained at a lower level in resealed ghost cells of patients than in normal cells both in the presence and absence of adenosine triphosphate (ATP). We studied the activities of Ca2+,Mg2+-ATPase, ouabain-sensitive Na+,K+-ATPase, Mg2+-ATPase and Ca2+-(spectrin-)ATPase in cell membranes prepared by washing the cells with hypotonic medium. The mean +/-SD Ca2+,Mg2+-ATPase/Mg2+-ATPase of HS patients was 3.34 +/- 1.06, and 2.81 +/- 0.42 in control subjects. Na+,K+-ATPase/Mg2+-ATPase was 2.38 +/- 0.38 in HS cells compared to 2.01 +/- 0.41 in normal cells. Ca2+-ATPase/Mg2+-ATPase of HS membranes was 0.57 +/- 0.18 and the control value 0.43 +/- 0.08. These data indicate calcium retention in the erythrocytes of HS patients in spite of increases in Ca2+,Mg2+-ATPase activity in the majority of patients.     

Effect of physical exercise on the digoxin concentrations in skeletal muscle and serum in man

Summary. Seven healthy men performed an exercise on a bicycle ergometer during one hour after 2 weeks intake of digoxin and with the last dose taken 24 hours before the exercise. Blood samples and skeletal muscle biopsies (m. quadriceps femoris, vastus lateralis) were taken before and after the exercise for analysis of serum and skeletal muscle digoxin concentrations. A percutaneous needle biopsy technique was used for muscle sampling and digoxin was analysed by radioimmunoassay. One minute after completion of the exercise a significantly higher digoxin concentration was found in the thigh muscle than before exercise, indicating an increased digoxin binding in this muscle. Serum digoxin concentration decreased significantly during exercise. After exercise serum digoxin concentration increased again but was still, 30 min after exercise, significantly lower than before exercise.     

Muscle morphology and enzymes in proximal and distal muscle groups of lower limb from patients with corticosteroid treated rheumatoid arthritis: the relationship to maximal isokinetic muscle strength

Abnormal morphological and enzymatic patterns in the lateral vastus muscle have been found in women with corticosteroid treated rheumatoid arthritis. By means of biopsies from the lateral heads of right gastrocnemius muscles, the histology and enzyme activities were compared with those found in right vastus lateralis biopsies. The findings were correlated with isometric and isokinetic strength of the plantar flexors. The relative occurrence of type I fibres in the gastrocnemius muscle was 46.4 +/- 18.7 (SD) %, which is significantly higher than found in the vastus lateralis [35.7 +/- 13.3 (SD) %] (P less than 0.03). The relatively lower percentage of type II fibres in the gastrocnemius muscle was due to a relatively low percentage of type II A fibres [mean 27.9 +/- 16.4 (SD) %] (P less than 0.05). The area of type I fibres in the gastrocnemius muscle was 26.1 X 10(2) +/- 10.0 (SD) micron 2, which is 74% of the mean area for type I fibres found in the vastus lateralis (P less than 0.01). The area of type II fibres in the gastrocnemius was 14.9 X 10(2) +/- 7.1 (SD) micron 2, which is 77% of the mean area for type II fibres found in the vastus lateralis. The isokinetic muscle strength of the plantar flexors in corticosteroid treated patients with rheumatoid arthritis was reduced to less than 50% at all angular velocities when compared with healthy women. The same difference was found in the knee extensors.(ABSTRACT TRUNCATED AT 250 WORDS)     

The effect of chronic frusemide administration on intracellular potassium, sodium and pH of cardiac and skeletal muscle.

1. Chronic administration of frusemide in large doses of 4 mg day-1 kg-1 for 3 weeks caused a significant reduction of cell water in rabbit cardiac and skeletal muscle. Intracellular Na+ concentration, intracellular pH and extracellular space was unchanged in both tissues. Intracellular K+ concentration increased slightly in both cardiac and skeletal muscle. 2. It is concluded that frusemide does not reduce intracellular K+ concentration in cardiac or skeletal muscle of normal animals receiving a normal oral potassium intake.     

Lack of pharmacodynamic interactions between quinidine and digoxin in isolated atrial muscle of guinea pig heart

Quinidine has been reported to have no effect on the positive inotropic action of digoxin observed in isolated cardiac muscle preparations. This is surprising because quinidine has been shown to reduce Na+ influx in cardiac muscle. The conditions which increase Na+ influx stimulate the glycoside binding to Na+- and K+-activated Mg++-dependent ATP phosphohydrolase (Na+,K+-ATPase), and therefore quinidine may be expected to have an opposite effect. Thus, the effects of quinidine on cardiac muscle and its possible interactions with digoxin were re-evaluated using electrically paced left atrial muscle preparations of guinea pig heart. Quinidine caused a frequency- and concentration-dependent decrease in maximal upstroke velocity and amplitude of the action potential without altering resting membrane potential. In addition, quinidine prolonged action potential duration markedly in a frequency-dependent manner. Despite action potential prolongation, the alkaloid reduced net Na+ influx as determined by a decrease in steady-state ouabain-sensitive 86Rb+ uptake. Under these conditions, however, quinidine failed to reduce the rate of onset or the maximal positive inotropic effect of digoxin; or did it reduce digoxin binding to Na+,K+- ATPase in beating atrial muscle preparations. Benzocaine, which reduced net Na+ influx without increasing the action potential duration, also failed to affect the peak inotropic effect of digoxin or the glycoside binding. Quinidine had no direct effects on glycoside binding to isolated cardiac Na+,K+-ATPase. Moreover, [3H]ouabain binding to isolated enzyme was relatively insensitive to changes in Na+ concentrations between 1 and 8 mM although binding was stimulated clearly by Na+ above 8 mM. These results indicate that quinidine, at therapeutic concentrations, does not interact pharmacodynamically with digoxin in isolated cardiac muscle.     

Analytical subcellular fractionation of normal human skeletal muscle by sucrose density gradient centrifugation

The principle organelle marker enzymes and various adenosine triphosphatase (ATPase) activities were studied in human skeletal muscle. The reproducibility of each assay was established under optimal and linear assay conditions. Whole homogenates of normal human quadriceps muscle were fractionated by centrifugation on a continuous sucrose density gradient. Gradient fractions were assayed for organelle marker enzymes and frequency-density histograms were constructed for each enzyme. Good resolution of the principal organelles was obtained. Adenosine triphosphatase (ATPase) was assayed under conditions of maximal stimulation by Ca2+, or Mg2+ or Na2+, K+ + Mg2+. The distribution of these activities was compared with those of the organelle marker enzymes. Both Ca2+-ATPase and Mg2+-ATPase were distributed to both the mitochondrial and myofibrillar fractions but could be distinguished by the inhibition of mitochondrial ATPase with sodium azide. The distribution of Na+, K+-activated, Mg2+-dependent ATPase (Na+, K+ ATPase) activity suggested a sarcolemmal localization. The results of electron microscopy of gradient fractions were consistent with the organelle content of the fractions as determined by enzymic analyses. These studies provide reference information for the subsequent investigation of organelle pathology of human muscle disorders.     

Significance of skeletal muscle digitalis receptors for [3H]ouabain distribution in the guinea pig

The importance of specific digitalis glycoside binding sites in skeletal muscle for the digitalis glycoside distribution in the guinea pig was evaluated using [3H]ouabain and [3H]digoxin binding assays. Measurements of [3H]ouabain binding capacity (EOmax) in gastrocnemius and heart muscles in vitro gave values of 474 +/- 15 and 1,092 +/- 39 pmol/g wet wt., respectively, in 4-week-old guinea pigs. Hence the total amount of [3H]ouabain binding sites in skeletal muscle and the heart was around 42,700 and 1,200 pmol, respectively. The apparent dissociation constants (Kd) for ouabain receptor interaction was 0.7 X 10(-7) and 1.5 X 10(-7) M for skeletal muscle and heart, respectively. Comparison of [3H]ouabain and [3H]digoxin binding revealed that these drugs are competitive. From birth to maturity the concentration of [3H]ouabain binding sites in guinea pigs decreased from 803 +/- 58 to 304 +/- 28 pmol/g wet wt. in gastrocnemius muscle and from 1,458 +/- 31 to 1,079 +/- 19 pmol/g wet wt. in the heart. After i.p. injection, measurements of the distribution of [3H]ouabain in plasma, skeletal muscle and the heart showed an almost equal relative specific occupancy of digitalis glycoside receptors in skeletal muscle and the heart: When 10% of the digitalis receptors in the heart were occupied by [3H]ouabain, 13% of those in the skeletal muscles were occupied. It was calculated that 1 hr after the i.p. administration of [3H]ouabain the amount of [3H]ouabain specifically bound to the skeletal muscles and the heart corresponded to 5 times and 1/10 the amount available in the extracellular pool, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Reliability of IL Monarch ion-selective electrode module for sodium, potassium, and chloride measurements

We evaluated the IL Monarch random-access centrifugal analyzer for measurement of Na+, K+, and Cl- by an indirect potentiometric method. For different concentrations of control material, the total precision (CV) ranged between 0.82% and 1.14% for the three electrolytes; linearity was acceptable within a range of 103 to 215 mmol/L for Na+, 1.6-15.25 mmol/L for K+, and 80-173 mmol/L for Cl-. Data correlated well with those by flame photometry for Na+ and K+ and with those by coulometry for Cl-, both for various biological materials--sera, urines, dialysis fluids--and commercial control materials from various producers. Stability of the potentiometric signal was acceptable: daily variations were 0.2 mV for Na+, 0.05 mV for K+, and 0.03 mV for Cl-. Accordingly, we conclude that the system supplies reproducible and accurate results while being easy to use and requiring little maintenance. The use of indirect potentiometry offers results consistent with those obtained with traditional methods, and easily interpretable by clinical staff. However, better information about the actual ion activity in the tested sample for certain pathologies such as hyperlipemia and dysproteinemia could be obtained by methods involving direct potentiometry.     

Intracellular pH and electrolytes in human skeletal muscle during adrenaline and insulin infusions

There is evidence that both beta-adrenergic stimulation and insulin are of importance in controlling intracellular pH. Therefore we have investigated the influence of intravenous infusion of adrenaline or insulin glucose (euglycaemic clamp) on pH and electrolyte composition in resting skeletal muscle (m. quadriceps femoris) and arterial blood in six healthy subjects. A decrease in the arterial potassium concentration was observed during infusion of adrenaline and is in conformity with previous studies. Both adrenaline and insulin infusions resulted in an increased lactate content of muscle and blood, indicating an enhanced glycolysis. The intracellular concentrations of K+, Na+, Mg2+ and H+, however, remained unchanged during the adrenaline infusions as well as during infusions of insulin. It is concluded that increasing the plasma adrenaline and insulin concentrations to levels well above the physiological range (adrenaline) or in the upper physiological range (insulin) does not affect the concentrations of electrolytes and hydrogen ions in resting human muscle to any appreciable extent.     

On the Mechanism of Action of Triamterene: Effects on Transport of Na+, K+, and HVHCO-3 -ions.

The rat salivary duct epithelium, which actively transports Na+, K+, and H+/HCO3- in a manner similar to renal distal tubules, was used as a model tissue to study the mechanism of action of triamterene on electrolyte transport. 10(-4) M triamterene completely blocked Na+ resorption and lowered net K+ secretion to half that of controls, whereas HCO3- accumlated in the lumen, probably due to a decrease in H+ secretion. The rates of K+ and H+/HCO3- transport in the presence of triamterene did not differ from those determined after omission of Na+ from the luminal fluid. This was considered to be evidence against a direct action of triamterene on transport of K+ and H+/HCO3-. Triamterene rapidly and reversibly reduced the transepithelial electrical potential difference. This was due to almost complete abolition of Na+ conductance of the luminal membrane at 10(-4) M triamterene, whereas K+ conductance was not altered. Triamterene, administered in vitro from the interstitial side of the isolated duct epithelium was ineffective even at the highest concentrations. The activities of the Na-K-ATPase, the Mg-ATPase and the microsomal HCO3-ATPase were influenced by 10(-4) M triameterene in a similiar fashion. These effects were clearly demonstrated only in the homogenate of the duct tissue and not in intact cells in the isolated duct preparation. Therefore they were considered unspecific. The transport studied demonstrate a primary effect of triamterene on Na+ entry from lumen to cell. Influences on net K+ and H+/HCO3 transport are secondary consequences of functional coupling between movement of Na+ and movement of K+ and H+ across the luminal cell membrane.     

Water depletion, not oral sodium loading, increases levels of sodium, potassium-dependent adenosine triphosphatase inhibitors in rat plasma

In order to define a physiological role for circulating inhibitors of sodium, potassium-dependent adenosine triphosphatase (Na+,K+-ATPase), plasma was obtained from control, water deplete, water repleted, sodium deplete and sodium loaded rats. The effect of this plasma on Na+,K+-ATPase activity, and its transport equivalent 86Rb uptake, was measured in separated guinea pig renal cortical tubules. Plasma from water deplete rats had a raised plasma osmolality and sodium concentration and a significant inhibitory effect on Na+,K+-ATPase (14%) and 86Rb uptake (24%) compared with control or water repleted rats. Inhibition of Na+,K+-ATPase and 86Rb transport was not seen with plasma from rats after dietary sodium loading (urine sodium 5.2 +/- 0.9 mmol/day) compared with low sodium diet controls (urine sodium 0.41 +/- 0.08 mmol/day). Des-amino arginine vasopressin in vivo produced no inhibition of Na+,K+-ATPase or Rb transport. These studies suggest, that in terms of common homoeostatic insults, circulating inhibitors of Na+,K+-ATPase are more responsive to water depletion than to oral sodium loading. The inhibitors may fulfil a physiological role in increasing sodium excretion to maintain osmolality after dehydration.     

Glycogen synthase activity is reduced in cultured skeletal muscle cells of non-insulin-dependent diabetes mellitus subjects. Biochemical and molecular mechanisms.

To determine whether glycogen synthase (GS) activity remains impaired in skeletal muscle of non-insulin-dependent diabetes mellitus (NIDDM) patients or can be normalized after prolonged culture, needle biopsies of vastus lateralis were obtained from 8 healthy nondiabetic control (ND) and 11 NIDDM subjects. After 4-6 wk growth and 4 d fusion in media containing normal physiologic concentrations of insulin (22 pM) and glucose (5.5 mM), both basal (5.21 +/- 0.79 vs 9.01 +/- 1.25%, P < 0.05) and acute insulin-stimulated (9.35 +/- 1.81 vs 16.31 +/- 2.39, P < 0.05) GS fractional velocity were reduced in NIDDM compared to ND cells. Determination of GS kinetic constants from muscle cells of NIDDM revealed an increased basal and insulin-stimulated Km(0.1) for UDP-glucose, a decreased insulin-stimulated Vmax(0.1) and an increased insulin-stimulated activation constant (A(0.5)) for glucose-6-phosphate. GS protein expression, determined by Western blotting, was decreased in NIDDM compared to ND cells (1.57 +/- 0.29 vs 3.30 +/- 0.41 arbitrary U/mg protein, P < 0.05). GS mRNA abundance also tended to be lower, but not significantly so (0.168 +/- 0.017 vs 0.243 +/- 0.035 arbitrary U, P = 0.08), in myotubes of NIDDM subjects. These results indicate that skeletal muscle cells of NIDDM subjects grown and fused in normal culture conditions retain defects of basal and insulin-stimulated GS activity that involve altered kinetic behavior and possibly reduced GS protein expression. We conclude that impaired regulation of skeletal muscle GS in NIDDM patients is not completely reversible in normal culture conditions and involves mechanisms that may be genetic in origin.     

Are sodium bicarbonate and potassium bicarbonate fully dissociated under physiological conditions?

In solutions containing 160 mmol/l Na+ and K+, respectively, measurements with an ion-selective electrode system (KNA1, Radiometer), showed apparent falls in the respective Na+ and K+ concentrations when C1- was replaced by HCO3-. After correction for the change in liquid junction potential, the fall was 9.2 mmol/l for Na+ and 7.3 mmol/l for K+. On the basis of these findings we conclude that sodium bicarbonate and potassium bicarbonate are not fully dissociated in solution, and that NaHCO3(0) and KHCO3(0) do exist as chemical components with association constants of 0.72 and 0.55, respectively. Using these association constants, normal plasma will contain 1.2 mmol/l NaHCO3(0) and 0.03 mmol/l KHCO3(0). Thus NaHCO3(0) accounts for virtually the same amount of CO2 as the physically dissolved fraction. A review of all the currently known CO2 species in plasma suggests that there may be a residue of about 2 mmol/l of unknown CO2 species in normal plasma.     

Proton secretion by the sodium/hydrogen ion antiporter in the human neutrophil.

The reducing equivalents used by the human neutrophil respiratory burst oxidase are derived from NADPH generated by the hexose monophosphate shunt. The CO2 generated by the HMP shunt is spontaneously hydrated and the protons (H+) are secreted upon the dissociation of carbonic acid. The mechanism and significance of H+ secretion by the resting and stimulated neutrophil was investigated. A basal rate of H+ secretion by resting neutrophils observed in a choline buffer was augmented with the addition of sodium (Na+) (Km for Na+ was 3.22 +/- 0.32 mM). Amiloride, a Na+/H+ antiporter inhibitor, reduced H+ secretion in Na+-containing buffers with a Ki = 1.02 microM. This Na+/H+ exchange mechanism was also operative in cells stimulated with a variety of agonists, and an increased H+ flux, relative to resting cells, was observed at higher Na+ concentrations. Cytoplasts incorporating acridine orange were also used to assess Na+-H+ flux. Cytoplasts were used to avoid alteration of the fluorescent pH probe by HOCl formed in intact neutrophils. Alkalinization of the cytoplasm was dependent on extracellular Na+ in concentrations similar to that found to augment H+ secretion in intact cells. Also, amiloride competitively inhibited H+ secretion by the cytoplasts. Both superoxide (O2-) production and lysozyme release in cells stimulated with opsonized zymosan or concanavalin A was significantly inhibited in the absence of Na+, restored to normal with the addition of Na+ in low concentrations, and inhibited again in the presence of amiloride. A Na+/H+ antiporter similar to that found in other cell types is present in the human neutrophil and appears linked to activation of the respiratory burst and degranulation.     

In vivo effects of high phenylalanine blood levels on Na+,K+-ATPase,Mg2+-ATPase activities and biogenic amine concentrations in phenylketonuria

OBJECTIVE: To evaluate the activities of Na+,K+-ATPase and Mg2+-ATPase in erythrocyte membranes from phenylketonuric (PKU) patients and to correlate the enzyme activities with their blood phenylalanine (Phe) levels, biogenic amines as well as with their precursors tyrosine (Tyr) and tryptophan (Try). DESIGN AND METHODS: Twenty three PKU patients were divided into group A (n = 12) on a restricted diet (Phe 1.57 +/- 0.52 mg/dL or 0.10 +/- 0.03 mM) and group B (n = 11) on a "loose" diet (Phe 24.45 +/- 1.50 mg/dL or 1.72 +/- 0.09 mM). The enzyme activities were measured spectrophotometrically, the amino acids with an automatic amino analyser and the biogenic amines with HPLC methods. RESULTS: In group B, plasma amino acids (Tyr, Try), their biogenic amines [adrenaline (A), noradrenaline (NA), dopamine (DA) and serotonin (5HT)], (Na+,K+)-ATPase and Mg2+-ATPase activities were found remarkably decreased (p < 0.001). CONCLUSIONS: High Phe and/or low NA, DA, 5HT plasma levels may indirectly inhibit the erythrocyte membrane Na+,K+-ATPase and Mg2+-ATPase in PKU patients. The observed enzyme inhibitions could be a very informative peripheral marker as regards the neurotoxic Phe brain effects.