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151. Role of passive potassium fluxes in cell volume regulation in cultured HeLa cells.

Author

Tivey DR, Simmons NL, and Aiton JF

Subjects
Cell Membrane Permeability drug effects, Culture Media, Diuretics, Osmotic pharmacology, Furosemide pharmacology, HeLa Cells cytology, HeLa Cells metabolism, Humans, Hypertonic Solutions, Ion Channels metabolism, Isotonic Solutions, Kinetics, L-Lactate Dehydrogenase metabolism, Osmotic Pressure, Ouabain pharmacology, Radioisotopes, Rubidium metabolism, HeLa Cells physiology, Ion Channels physiology, Potassium physiology
Abstract

Cultured HeLa cells behave as ideal osmometers when subjected to hyperosmolar media, and show no volume regulatory behavior. In hypoosmolar solutions, cell swelling is not as great as predicted, and this is due largely to a loss of intracellular KCl. In hyperosmolar solutions there is a stimulation of the ouabain-insensitive but loop diuretic-sensitive 86Rb+ (K+) pathway. Analysis of the K+, Na+ and Cl- dependency of this K+ flux pathway demonstrates that the increase is principally due to an increase in its maximal velocity (Vmax). The sensitivity of this pathway to diuretic inhibition is unchanged in hyperosmolar media. Diuretic-sensitive 86Rb+ (K+) efflux stimulated by hypertonicity shows no marked dependence on external K+. The K+ loss observed in hypoosmolar media is distinct from the K+ transport pathway stimulated by hyperosmolar media on the basis of its sensitivity to furosemide and anion dependence.

Published
1985
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153. Vasoactive intestinal peptide control of renal adenylate cyclase: in vitro studies of canine renal membranes and cultured canine renal epithelial (MDCK) cells.

Author

Griffiths NM, Rugg EL, and Simmons NL

Subjects
Animals, Cell Line, Colforsin pharmacology, Cyclic AMP metabolism, Dogs, Epithelial Cells, Epithelium drug effects, Epithelium enzymology, Glucagon pharmacology, Kidney cytology, Kidney drug effects, Adenylyl Cyclases metabolism, Kidney enzymology, Vasoactive Intestinal Peptide pharmacology
Abstract

Vasoactive intestinal peptide (VIP) has been shown to stimulate adenylate cyclase activity in plasma membranes isolated from canine renal cortex, outer and inner medulla in vitro. Though related hormones such as glucagon also stimulate adenylate cyclase in these membrane preparations, it is likely that VIP interacts with specific VIP receptors since the VIP receptor antagonist, (4Cl-D-Phe6, Leu17)-VIP, is capable of reducing the response to VIP, but not that to glucagon. Also binding of 125I-VIP to cortical renal plasma membranes shows competition by unlabelled VIP, but not by glucagon. Strain 1 (and clone CL(8)1b cells derived from the established cultured dog kidney cell line, MDCK, have been shown also to respond selectively to VIP by an increase in adenylate cyclase activity and cyclic AMP accumulation in intact cells. A physiological correlate of VIP activation of adenylate cyclase has been sought by addition of VIP to reconstituted epithelial monolayers of strain 1 MDCK cells clamped in Ussing chambers. VIP addition to the basal-lateral cell aspects generates an inward short-circuit current that is sensitive to replacement of medium Cl- by NO3-, and to inhibition by the Cl- channel blocker, 3-nitro-2(3-phenylpropylamino)-benzoic acid, consistent with VIP stimulation of transepithelial Cl- secretion.

Published
1989
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154. Autoradiographic localisation of [3H]ouabain bound to cultured epithelial cell monolayers of MDCK cells.

Author

Lamb JF, Ogden P, and Simmons NL

Subjects
Animals, Autoradiography, Cell Line, Dogs, Epithelium ultrastructure, Kidney, Kinetics, Microscopy, Electron, Protein Binding, Sodium-Potassium-Exchanging ATPase metabolism, Tritium, Epithelium metabolism, Ouabain metabolism
Abstract

[3H]Ouabain binding to intact MDCK (cultured monolayers of dog kidney) cells of 60 serial passages is dependent upon ouabain concentration, time and medium K+. By utilising high K+ incubations to estimate non-specific [3H]ouabain-binding, the concentration of ouabain giving half maximal specific binding was estimated to be 1.0 . 10(-7) M and the total maximum binding to be 2.33 . 10(5) sites/cell. Ouabain inhibition of (Na+, K+)-pump function was monitored by the cellular uptake of 86Rb over 5 min. The larger fraction of 86Rb uptake was ouabain sensitive and the ouabain concentration giving half-maximal inhibition was 2 . 10(-7) M. The cellular distribution of the (Na+ + K+)-ATPase was investigated using [3H]ouabain autoradiography of intact freeze-dried epithelial monolayers of MDCK cells grown upon millipore filter supports. Binding of [3H]ouabain is localised over the lateral cellular membranes. Autoradiographic silver grain density is close to background levels over both the apical and basal (attachment) membranes.

Published
1981
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155. Membrane and intracellular modes of sugar-dependent increments in red cell stability.

Author

Simmons NL and Naftalin RJ

Subjects
Cell Membrane drug effects, Cell Membrane radiation effects, Diphosphoglyceric Acids blood, Erythrocytes drug effects, Erythrocytes radiation effects, Hemoglobins pharmacology, Humans, Kinetics, Lipids blood, Osmolar Concentration, Radiation Effects, Temperature, Cell Membrane ultrastructure, Erythrocytes ultrastructure, Fructose pharmacology, Glucose pharmacology
Abstract

Sugar-dependent increments in red cell stability under osmotic stress can be ascribed to changes either in the membrane or in the intracellular matrix. These two possible modes of action have been tested and characterized. Rheological investigation of membrane-free haemoglobin solutions has shown that D-glucose, but not D-fructose, promotes the formation of a visco-plastic gel structure. Gel strength is a function of glucose concentration, haemoglobin concentration and temperature. The ability of various sugars to promote gel formation correlates with their solution properties. The existence of gel structure reduces K+ and haemoglobin leak from red cells whose membranes were partially destroyed by gamma-radiation. Reduced osmotic swelling in the presence of glucose is also due to gel formation since the glucose effect is lost in resealed red cell ghosts. D-Fructose does not protect red cells against radiation damage; its mode of action in increasing red cell stability under osmotic stress is a membrane effect. Cell sizing using the Coulter Counter has shown that fructose, but not glucose, can increase the maximal volume at lysis. At 50 mM, D-fructose expands the red cell ghost volume by 11.2%; this represents a 7.2% increase in membrane area. Ghost expansion by fructose is fructose concentration dependent (0-100 mM) and is insensitive to temperature variation (0-37 degrees C).

Published
1976
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156. Transepithelial chemotaxis of rat peritoneal exudate cells.

Author

Evans CW, Taylor JE, Walker JD, and Simmons NL

Subjects
Animals, Ascitic Fluid, Cells, Cultured, Chemotactic Factors pharmacology, Dose-Response Relationship, Drug, Epithelium, Leukocytes physiology, Male, Membrane Potentials, N-Formylmethionine Leucyl-Phenylalanine pharmacology, Rats, Rats, Inbred Strains, Time Factors, Chemotaxis, Leukocyte drug effects
Abstract

The migration of peritoneal exudate (PE) cells into plain Millipore filters mounted in Boyden chambers occurs under random, chemokinetic and chemotactic conditions. Significant migration of such cells in vivo, however, involves both transendothelial and transepithelial penetration and occurs predominantly under pathological conditions where chemotactic agents are presumed to be present in gradient form. When Madin-Darby canine kidney (MDCK) epithelial cells are grown as a confluent monolayer on the Millipore filter of a Boyden chamber, transepithelial migration is seen only under chemotactic conditions thus modelling in vivo behaviour more effectively. The MDCK cell line exists as 2 variant strains which model different regions of the mammalian nephron. Strain I MDCK cells share features of the distal and collecting tubules and have relatively high junctional resistance (greater than 1k omega cm2). Strain II MDCK cells model the proximal segment of the nephron and have relatively low junctional resistance (c. 70 omega cm2). We have found that PE cells penetrate the less resistant strain II MDCK monolayer at a faster rate (as assessed by leading front migration) than they penetrate the tighter strain I monolayer. We have also utilized the electrophysiological features of MDCK monolayers to monitor transepithelial penetration. Our electrophysiological data indicate that rat PE cells penetrate MDCK monolayers of either strain by a transjunctional route with consequent reversible dissolution of the junctional complex. This extracellular path of PE cell migration was confirmed by ultrastructural observations. The extent of junctional dissolution and the delay in re-establishment of monolayer integrity (as assessed by electrophysiological means) are related to the concentration of PE cells added to the MDCK monolayer. Brief treatment (10 min) of the MDCK monolayer with the cation chelating agent EDTA also disrupts monolayer integrity, although its re-establishment is significantly faster than when disruption occurs by PE cell transmigration. Our results show a clear parallel between PE cell migration across an MDCK monolayer and changes in its electrophysiological parameters and thus suggest that transepithelial chemotaxis may be directly assessed by electrophysiological means. The use of Boyden chambers modified by the incorporation of epithelial monolayers may prove useful in in vitro studies of inflammation and could be adapted for studies of other pathological processes, such as metastasis, where considerable cell invasion is involved.

Published
1983

157. Stimulation of Cl- secretion by exogenous ATP in cultured MDCK epithelial monolayers.

Author

Simmons NL

Subjects
Animals, Biological Transport, Active drug effects, Calcium pharmacology, Cell Line, Dogs, Epithelium drug effects, Epithelium metabolism, Furosemide pharmacology, Kidney, Kinetics, Magnesium pharmacology, Membrane Potentials drug effects, Potassium pharmacology, Sodium metabolism, Adenosine Triphosphate pharmacology, Chlorides metabolism
Abstract

Cultures epithelial monolayers of MDCK cells were grown upon Millipore filter supports and mounted in Ussing chambers for ion-transport studies. Addition of exogenous ATP to the basal bathing solutions resulted in a stimulation of the short-circuit current which was due to both an increased transmonolayer p.d. and an increased conductance. Measurements of tracer Na+ and Cl- fluxes demonstrate that the ATP-stimulated short-circuit current, results from basal to apical Cl- movement (secretion) across the cultured monolayer. ATP-stimulated net Cl- secretion was inhibited by furosemide (1 x 10(-4) M) added to the basal bathing solution and by elevating the basal medium K+ concentration from 5.4 to 54 mM. Both furosemide and elevated basal K+ exert their inhibitory action upon the ATP-dependent short circuit current primarily by abolishing the electrogenic component without affecting the increased transmonolayer conductance. Hyperpolarization of the transmonolayer potential difference by applied currents also reduces the ATP dependent increase in the short-circuit current. The increased short-circuit current was insensitive to replacement of medium Na+ by choline+, but was linearly related to Cl- concentration with isethionate (2-hydroxyethanesulphonate) replacements. NO3-, I-, and the thiocyanate anion were all ineffective substitutes for Cl- whereas Br- and acetate were only partially effective. Sodium thiocyanate (10 mM) in the presence of NaCl inhibited the ATP-stimulated short-circuit current.

Published
1981
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158. Isolation and culture of renal cortical tubules from neonate rabbit kidneys.

Author

Richardson JC, Waterson P, and Simmons NL

Subjects
Adenylyl Cyclases metabolism, Alkaline Phosphatase metabolism, Animals, Chemical Fractionation, Epithelial Cells, Kidney Tubules anatomy & histology, Kidney Tubules enzymology, Methods, Rabbits, gamma-Glutamyltransferase metabolism, Animals, Newborn anatomy & histology, Cells, Cultured, Kidney Tubules cytology
Abstract

A method is described for the preparation of an enriched population of proximal tubules from the cortices of neonate (21-28 d old) rabbits. The method uses collagenase-hyaluronidase digestion, followed by gentle shear to yield a suspension of tubules and glomeruli. Tubular enrichment is achieved by discontinuous density gradient centrifugation in a Percoll gradient. Two fractions were obtained by this method. The denser fraction contained predominantly proximal tubules, was depleted of glomeruli and was enriched in the proximal tubule marker enzyme alkaline phosphatase. Qualitatively similar results to those obtained with neonate animals were obtained with adult tissue. Neonate tubules from the denser gradient fraction grew readily in tissue culture. When examined by electron microscopy the cells exhibited a marked polarity of ultrastructural organization and retained apical tight junctions. Despite this, there was an obvious loss of structure in comparison with in vivo proximal tubule cells. The use of primary culture techniques to study in vitro renal epithelial function is discussed.

Published
1982
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160. The effects of theophylline and choleragen on sodium and chloride ion movements within isolated rabbit ileum.

Author

Naftalin RJ and Simmons NL

Subjects
Animals, Biological Transport drug effects, Ethacrynic Acid pharmacology, Ileum drug effects, In Vitro Techniques, Intestinal Absorption drug effects, Intestinal Mucosa metabolism, Male, Pyrimidines pharmacology, Rabbits, Secretory Rate drug effects, Serous Membrane metabolism, Chlorides metabolism, Cholera Toxin pharmacology, Ileum metabolism, Sodium metabolism, Theophylline pharmacology
Abstract

1. Theophylline (10 mM) and choleragen change the direction of net Cl- movements across rabbit ileum, in the short-circuit current condition, from absorption to secretion. The specific activity ratio R of Cl- tracers within the tissue coming from mucosal and serosal solutions respectively is increased, which is consistent with an increase in Cl- exchange flux across the mucosal border. 2. Net Na+ movement is also changed from net absorption to secretion by theophylline and choleragen; the specific activity ratio R of Na+ tracers is raised by theophylline. Because of the large paracellular component to transepithelial Na+ movements, an increase in Na+ exchange flux across the mucosal border is not detected. 3. 2,4,6-Triaminopyrimidine (20 mM) which has been previously shown to block paracellular Na+ movements, blocks both the theophylline and choleragen-dependent reversal of net Na+ movement by preventing the decrease in m-s Na flux. The theophylline-dependent increase in the ratio R of Na+ is still present, and is consistent with an increase in Na+ exchange flux across the mucosal border--unmasked by removal of the paracellular flux components. 4. Ouabain (0.1 mM) abolishes net absorption of Na+ and Cl- in control and net secretion of Na+ and Cl- in theophylline-treated tissue. Ouabain does not affect the theophylline-dependent increase in Cl- exchange across the mucosal border. 5. Replacement of Ringer Cl- with SO24- or Na+ by choline prevents the effects of theophylline and choleragen on Na+ and Cl- fluxes respectively. 6. Ethacrynate (0.1 mM) prevents the theophylline-dependent effects on net Na+ movement. Raising ethacrynate to 0.2 mM abolishes the effects of theophylline on Cl- exchange. An interpretation of these results is that theophylline and choleragen raise the Cl- permeability of the brush border. This increases NaCl leakage from the hypertonic lateral intercellular space into the mucosal solution thereby causing secretion. The selective action of triaminopyrimidine and ethacrynate (0.1 mM) on Na+ flux indicates that Na+ and Cl- move via separate transport pathways across the mucosal border.

Published
1979
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161. Identification of two strains of MDCK cells which resemble separate nephron tubule segments.

Author

Richardson JC, Scalera V, and Simmons NL

Subjects
Alkaline Phosphatase metabolism, Animals, Arginine Vasopressin pharmacology, Cell Separation methods, Dogs, Epinephrine pharmacology, Epithelial Cells, Prostaglandins E pharmacology, Sodium-Potassium-Exchanging ATPase metabolism, gamma-Glutamyltransferase metabolism, Cell Line, Kidney Tubules cytology, Nephrons cytology
Abstract

Cultured monolayers of dog kidney (MDCK) cells display many features of in vivo epithelia. This work describes the identification of two separate strains of MDCK cell with entirely different properties. Strain I cells form epithelial monolayers which display a high electrical resistance (4.1 k omega . cm-2); the basal short-circuit is small (approx. 0.5 muamp . cm-2) and is stimulated by adrenaline (1 micrometer) prostaglandin E1 (1 micrometer) and arginine vasopressin (2 micrometer) added to the basal bathing solution. Strain II cells form epithelial monolayers of low electrical resistance; the short circuit current is insensitive to adrenaline, prostaglandin E1 and vasopressin. Strain II cells possess measurable activities of alkaline phosphatase and gamma-glutamyl transpeptidase whereas Strain I cells do not. The specific activity of the (Na+ + K+)-ATPase is two-fold greater in Strain II compared with Strain I. The polypeptide composition of the apical membrane differs substantially between the two cell strains as revealed by radio-iodination of external membrane proteins. Monolayer morphology is substantially different between two cell strains. The results are discussed in relation to previous work on MDCK epithelial and the two types of cell monolayer compared with in vivo tubule segments.

Published
1981

163. An effect of piretanide upon the intracellular cation contents of cells subjected to partial chronic (Na-K) pump blockade by ouabain.

Author

Aiton JF and Simmons NL

Subjects
Animals, Biological Transport drug effects, Cell Line, Dogs, HeLa Cells metabolism, Humans, Kidney metabolism, Mice, Muscle, Smooth metabolism, Diuretics pharmacology, Ouabain pharmacology, Potassium metabolism, Sodium metabolism, Sulfonamides pharmacology
Abstract

Cultured cells have been used to study the contribution made by the ouabain-insensitive but diuretic (piretanide)-sensitive K transport system (so-called cotransport) to the maintenance of intracellular Na+ and K+ contents in normal cells and in cells whose Na-pump sites have been subjected to chronic partial inhibition. In cells which have normally directed gradients of Na+ and K+, chronic incubation in piretanide (10(-4) M) for up to 24 hr has no significant effect on the internal ion contents of HeLa (human carcinoma), MDCK (dog kidney epithelium) or BC3H1 (mouse smooth muscle) cell lines. This observation is consistent with the notion that when the intracellular ion contents are in a normal steady state the net driving force acting upon the diuretic-sensitive K transport (Na + K + Cl cotransport system) is zero or very close to zero. When cells are subjected to chronic partial inhibition of the sodium pump as a consequence of growth in sublethal concentrations of ouabain (10(-9)-3 X 10(-7) M), the number of functional Na-pump sites decreases, the intracellular Na+ content increases and the intracellular K+ decreases in a dose dependent manner. Under these conditions, inclusion of piretanide (10(-4) M) causes a significant retardation of Na+ gain and K+ loss from the cells. This response is of high molar affinity (EC50 = 3-4 X 10(-6) M) and can be obtained with the other loop diuretics, furosemide and bumetanide. The data presented are consistent with the idea that in cells subjected to chronic partial inhibition of the Na-pump, there is a piretanide-sensitive exchange of intracellular K+ for extracellular Na+. Such an effect of the cotransport system would not be predicted on the basis of a tightly coupled electroneutral cotransport of Na+, K+ and Cl- with a stoichiometry of 1Na:1K:2Cl. The data are discussed in relation to the possible role of putative circulating endogenous inhibitors of the Na-pump.

Published
1984
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164. A sugar-dependent increase in red cell stability.

Author

Naftalin RJ, Seeman P, Simmons NL, Symons MC, and Ponter AS

Subjects
Carbon Radioisotopes, Cell Membrane drug effects, Elasticity, Erythrocytes cytology, Erythrocytes drug effects, Hemoglobins metabolism, Humans, Lethal Dose 50, Magnetic Resonance Spectroscopy, Mathematics, Models, Biological, Osmolar Concentration, Osmotic Pressure, Potassium metabolism, Spectrophotometry, Time Factors, Tritium, Viscosity, Water, Erythrocytes metabolism, Fructose pharmacology, Glucose pharmacology, Hemolysis drug effects, Monosaccharides pharmacology
Published
1974
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165. Resistance to acid of canine kidney (MDCK) and human colonic (T84) and ileo-caecal (HCT-8) adenocarcinoma epithelial cell monolayers in vitro.

Author

Chan AB, Allen CN, Simmons NL, Parsons ME, and Hirst BH

Subjects
Animals, Cell Line, Cells, Cultured, Dogs, Electric Conductivity, Epithelial Cells, Humans, Hydrogen-Ion Concentration, Membrane Potentials, Adenocarcinoma physiopathology, Cecal Neoplasms physiopathology, Colon physiology, Kidney physiology
Abstract

Monolayers of canine kidney (MDCK) and human lower intestinal (T84 and HCT-8) cell lines generated significant transepithelial electrical resistance (700-5000 omega cm2). Electrical integrity was maintained upon acidification of the apical and/or basolateral surfaces to pH 3.0, and this was associated with increased transepithelial electrical resistance, and generation of a potential difference at pH less than 4.5. These results indicate that resistance to acid is a general phenomenon of epithelial layers, and that monolayers of epithelial cells, including those of human origin, are a homogeneous and simple model for studying epithelial barrier function in vitro.

Published
1989
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166. Cultured monolayers of MDCK cells: a novel model system for the study of epithelial development and function.

Author

Simmons NL

Subjects
Animals, Biological Transport, Cells, Cultured, Chlorides metabolism, Dogs, Epithelium metabolism, Hormones pharmacology, Kidney cytology, Phenotype, Sodium metabolism, Epithelial Cells
Abstract

The application of cell culture techniques to the study of epithelial transport function is illustrated by the renal-derived MDCK system. MDCK cells display a typical epithelial morphology with an asymmetric localisation of the (Na+-K+)-ATPase to the lateral interspace membranes. Transepithelial ion transport is observed (using cell monolayers grown on permeable millipore filters clamped into standard Ussing chambers) which is sensitive to hormonal stimulation by adrenaline, exogenous ATP, PGE1, vasopressin and aldosterone. The development of epithelial characteristics in culture is discussed.

Published
1982
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167. Occurrence of passive furosemide-sensitive transmembrane potassium transport in cultured cells.

Author

Aiton JF, Chipperfield AR, Lamb JF, Ogden P, and Simmons NL

Subjects
Animals, Anions pharmacology, Biological Transport drug effects, Cells, Cultured, Chick Embryo, Chlorides pharmacology, Humans, Myocardium metabolism, Ouabain pharmacology, Sodium pharmacology, Furosemide pharmacology, Potassium metabolism
Abstract

Furosemide (1 x 10(-4) M) inhibits a proportion of the total passive (ouabain-insensitive) K+ influx into primary chick heart cell cultures (85%), BC3H1 cells (75%), MDCK cells (40%) and HeLa cells (57%). This action of furosemide upon K+ influx is independent of (Na+ + K+)-pump inhibition since the furosemide-sensitive component of the K+ influx is identical in the presence and absence of ouabain (1 x 10(-3) M). For HeLa cells the passive, furosemide-sensitive component of K+ influx is markedly dependent upon the external K+, Na+ and Cl- content. Acetate, iodide and nitrate are ineffective as substitutes for Cl-, whereas Br- is partially effective. Partial Cl- replacement by NO3- gave an apparent affinity of 100 mM [Cl]. Na+ replacement by choline+ abolishes the furosemide-sensitive component, whereas Li+ replacement reduces this component by 48%. Partial Na+ replacement by choline+ gives an apparent affinity of 25 mM [Na+]. Variation in the external K+ content gives an affinity for the furosemide-sensitive component of approx. 1.0 mM. Furosemide inhibition of the passive K+ influx is of high affinity, half-maximal inhibition being observed at 5 x 10(-6) M furosemide. Piretanide (1 x 10(-4) M) and phloretin (1 x 10(-4) M) inhibit the same component of passive K+ influx as furosemide; ethacrynic acid and amiloride (both 1 x 10(-4) M) partially so. The stilbene, SITS (1 x 10(-6) M), was ineffective as an inhibitor for the furosemide-sensitive component.

Published
1981
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170. Bidirectional sodium ion movements via the paracellular and transcellular routes across short-circuited rabbit ileum.

Author

Simmons NL and Naftalin RJ

Subjects
Animals, Biological Transport, Electric Conductivity, Galactose pharmacology, Ileum drug effects, Intestinal Mucosa drug effects, Intestinal Mucosa metabolism, Male, Membrane Potentials drug effects, Pyrimidines pharmacology, Rabbits, Ileum metabolism, Sodium metabolism
Abstract

1. It has been confirmed that the agent 2,3,6-triaminopyrimidine decreases Na+ conductance in the paracellular pathway of rabbit ileum. 2. Triaminopyrimidine has been used as a means of measuring transcellular bidirectional Na+ flux, and also, of assessing the contribution of the paracellular pathway to transepithlial Na+ flux. 3. Reduction of Ringer [Na+] to 25 mM or incubation with 0.1 mM ouabain reduces paracellular Na+ permeability. This effect may be due to lateral space collapse. Ringer galactose increases serosa to mucosa Na+ flux by a stimulating reflux through the tight junctions. A proportion of net Na+ flux in control tissues is due to asymmetry generated in the paracellular pathway. It is likely that this passive asymmetry results from an osmotic pressure gradient across the tight-junction. 4. Measurement of the tissue isotope specific activity ratio together with bidirectional transcellular Na+ fluxes allows calculation of the four unidirectional fluxes across the mucosal and serosal boundaries. Values obtained for Na+ entry (J12) and exit (J21) across the mucosal boundary are 7.97 alnd 7.13 mumol-cm(-2)-h(-1) respectively. Entry flux (J12) is a saturable function of Ringer [Na+]. The calculated Km is 295 mM and the V is 17.6 mumul-cm(-2)-h(-1). Na+ entry flux is insensitive to ouabain (0.1 mM). Ouabain results in elevation of exit (J21) flux of Na+ across the brush border. D-Galactose causes a saturable increase in Na+ flux (J12) across the mucosal boundary; the Km for this relationship is 1.2 mM and the V 2.17 mumol-cm(-2)-h(-1). The stoichiometry between sugar and Na+ entry is applixmately 1:1. In contrast to the effect of galactose on entry flux, no change in Na+ efflux across the mucosal boundary is observed when Ringer [galactose] is raised. This finding is dissonant with the prediction of the Na+ -gradient hypothesis. The calculated values of exit (J23) and entry (J32) Na+ fluxes across the serosal border are 16.74 and 15.90 mumol-cm(-2)-h(-1). 0.1 mM ouabain markedly reduces both these unidirectional fluxes. This result is consistent with a serosal location of the Na+-pump. Serosal Na+ exit flux J23 increases as a hyperbolic function of Ringer [galactose]. A small galactose-dependent decrease in entry (J32) is also observed. 0.1 mM ouabain abolishes these galactose-dependent changes. 5. The present findings together with those in the previous paper are discussed in relation to the convective-diffusion model for sugar transport.

Published
1976
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171. Identification of two strains of cultured canine renal epithelial cells (MDCK cells) which display entirely different physiological properties.

Author

Barker G and Simmons NL

Subjects
Animals, Dogs, Electrophysiology, In Vitro Techniques, Kidney, Cell Line
Abstract

Cultured monolayers of Madin-Derby canine kidney (MDCK) cells grown upon permeable filter supports display many features of in vivo epithelia. Measurements of transmonolayer resistance, open-circuit p.d., dilution and bi-ionic p.d.s have been made of MDCK monolayers mounted in Ussing-type chamber (0.75 cm window radius). Previously reported values of transmonolayer resistance of 100 omega cm2 (Cereijido, Robbins, Dolan, Rotunno & Sabatini, 1978; Misfeldt, Hamamoto & Pitelka, 1976) indicate a 'leaky' epithelium. The major finding of this work is that MDCK monolayers can also display values of transmonolayer resistance similar to 'tight' epithelia (mean value = 4116 omega cm2). The reason for such differences is the existence of separate strains of MDCK cells. High-resistance monolayers originate from cell stocks of sixty serial passages whilst low-resistance monolayers originate from cell stocks of 109 serial passages. Measurements of transmonolayer dilution, and bi-ionic p.d.s together with Na ion tracer fluxes and electron microscope observations of La3+ penetration through the apical tight junctions, substantiate the finding of high-resistance properties in MDCK monolayers and confirm the existence of two separate MDCK cell strains displaying entirely different physiological properties. Differences extend to cellular morphology and cellular volume in the two strains of MDCK cells.

Published
1981
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172. K+ transport in "tight' epithelial monolayers of MDCK cells.

Author

Aiton JF, Brown CD, Ogden P, and Simmons NL

Subjects
Animals, Biological Transport, Active drug effects, Cell Line, Cell Membrane physiology, Dogs, Epithelium metabolism, Furosemide pharmacology, Kidney, Kinetics, Membrane Potentials, Ouabain pharmacology, Potassium metabolism
Abstract

Bidirectional transepithelial K+ flux measurements across 'high-resistance' epithelial monolayers of MDCK cells grown upon millipore filters show no significant net K+ flux. Measurements of influx and efflux across the basal-lateral and apical cell membranes demonstrate that the apical membranes are effectively impermeable to K+. K+ influx across the basal-lateral cell membranes consists of an ouabain-sensitive component, an ouabain-insensitive component, an ouabain-insensitive but furosemide-sensitive component, and an ouabain- and furosemide-insensitive component. The action of furosemide upon K+ influx is independent of (Na+ - K+)-pump inhibition. The furosemide-sensitive component is markedly dependent upon the medium K+, Na+ and Cl- content. Acetate and nitrate are ineffective substitutes for Cl-, whereas Br- is partially effective. Partial Cl- replacement by NO3 gives a roughly linear increase in the furosemide-sensitive component. Na+ replacement by choline abolishes the furosemide-sensitive component, whereas Li+ is a partially effective replacement. Partial Na+ replacement by choline abolishes the furosemide-sensitive component, whereas Li+ is a partially effective replacement. Partial Na+ replacement with choline gives an apparent affinity of approximately 7 mM Na, whereas variation of the external K+ content gives an affinity of the furosemide-sensitive component of 1.0 mM. Furosemide inhibition is of high affinity (K1/2 = 3 micrometer). Piretanide, ethacrynic acid, and phloretin inhibit the same component of passive K+ influx as furosemide; amiloride, 4,-aminopyridine, and 2,4,6-triaminopyrimidine partially so. SITS was ineffective. Externally applied furosemide and Cl- replacement by NO3- inhibit K+ efflux across the basal-lateral membranes indicating that the furosemide-sensitive component consists primarily of K:K exchange.

Published
1982
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173. Factors affecting the compartmentalization of sodium ion within rabbit ileum in vitro.

Author

Simmons NL and Naftalin RJ

Subjects
Animals, Biological Transport, Cell Membrane metabolism, Extracellular Space metabolism, Galactose pharmacology, Ileum drug effects, In Vitro Techniques, Intestinal Mucosa drug effects, Inulin metabolism, Kinetics, Male, Ouabain pharmacology, Pyrimidines pharmacology, Rabbits, Theophylline pharmacology, Ileum metabolism, Intestinal Mucosa metabolism, Sodium metabolism
Abstract

(1) Net Na+ loss from rabbit ileum, stripped of its serosal muscle layers, into ice cold choline chloride is consistent with loss from two separate pools (rate constants 0.102 and 0.011 min-1). Since cell K+ is lost with a single rate constant, 0.0062 min-1) and inulin, a good extracellular marker, is lost with a single rate constant 0.082 min-1, it is inferred that the fast rate constant of Na loss characterizes loss from an extracellular pool and the slow constant, loss from an intracellular pool. (2) The [Na+] in the inulin space (extracellular) was calculated to be 180 +/- 13 (S.D.) mequiv. and the [Na+] in the intracellular space 30.4 +/- 4.1 (S.D.) medquiv., this provides evidence that the paracellular spaces are, at least 80 mosmol hypertonic to the external Ringer. (3) There is a saturable galactose-dependent increase in both the intracellular and extracellular [Na+]. Extracellular [Na+] is increased to 236 +/- 22 (S.D.) mequiv. Whilst intracellular [Na+] is increased to 42.6 +/- 8.8 (S.D.) mequiv. when Ringer [galactose] is 10 mM. Galactose-dependent increases in total tissue [Na+] can thus be attributed mainly to the increase in extracellular [Na+]. (4) Extracellular hypertonicity, both in the presence and absence of galactose, is dependent upon the [Na+] of the bathing Ringer. 0.1 mM ouabain abolishes the extracellular hypertonicity. This observed extracellular hypertonicity in normally functioning tissue may provide the driving force for transcellular convective flow of salt, water and sugars.

Published
1976
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174. Vasoactive intestinal peptide stimulation of renal adenylate cyclase and antagonism by (4Cl-D-Phe6Leu17)VIP.

Author

Griffiths NM, Simmons NL, and Rivier J

Subjects
Adenylyl Cyclase Inhibitors, Animals, Cats, Dogs, Dose-Response Relationship, Drug, Glucagon pharmacology, Guinea Pigs, Mice, Mice, Inbred BALB C, Peptides pharmacology, Rabbits, Rats, Rats, Inbred Strains, Species Specificity, Stimulation, Chemical, Tissue Distribution, Vasoactive Intestinal Peptide analogs & derivatives, Adenylyl Cyclases metabolism, Kidney enzymology, Vasoactive Intestinal Peptide pharmacology
Abstract

The effect of vasoactive intestinal peptide (VIP) and related peptides [glucagon, secretin, PHI 1-27 (peptide with N-terminal histidine and C-terminal isoleucine)] on renal adenylate cyclase (AC) has been determined in several species. The largest stimulation (4.1 +/- 0.5-fold basal) of AC by 1 mumol.l-1 VIP was observed in feline cortical plasma membranes. In rabbit and guinea-pig, VIP increased AC activity 1.5 +/- 0.3- and 1.8 +/- 0.3-fold respectively but glucagon had no such action. Conversely in the rat glucagon stimulated AC some 3-fold over basal activity whereas VIP had little effect. In dog, cat and mouse both peptides were effective in increasing AC activity. For cat, half-maximal stimulation of cortical plasma membrane AC by VIP was seen at 27.0 +/- 9.0 nmol.l-1 (SE N = 9 animals). VIP also increased AC activity in both outer (red) and inner (white) medulla. In feline cortical membranes VIP and PTH (parathyroid hormone) when added in combination were fully additive. However for VIP and glucagon in combination there was no cumulative increase in AC activity, indeed the resultant activity was less than that attained by VIP alone. The VIP analogue (4Cl-D-Phe6Leu17)VIP at 10 mumol.l-1 produced a right shift in the VIP-dose response curve and increased the EC50 from 17.2 +/- 5.8 nmol.l-1 to 132.0 +/- 22.2 nmol..-1 VIP (SE N = 4). There was no reduction in the maximum response elicited by VIP consistent with a competitive type of antagonism by this analogue. PHI-stimulated AC was also reduced by (4Cl-D-Phe6Leu17)VIP resulting in a similar right shift in the dose response curve.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1989
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178. Vasoactive intestinal polypeptide regulation of rabbit renal adenylate cyclase activity in vitro.

Author

Griffiths NM and Simmons NL

Subjects
Animals, Cell Membrane enzymology, Dose-Response Relationship, Drug, Female, In Vitro Techniques, Kidney drug effects, Kidney Cortex enzymology, Kidney Glomerulus enzymology, Kidney Tubules enzymology, Male, Rabbits, Adenylyl Cyclases metabolism, Kidney enzymology, Vasoactive Intestinal Peptide pharmacology
Abstract

1. The effect of vasoactive intestinal polypeptide (VIP) upon adenylate cyclase activity was determined in purified cortical basolateral membranes and in glomeruli and tubular elements obtained from rabbit kidney. 2. In purified basolateral membranes prepared from cortex, 1 microM-VIP consistently stimulated adenylate cyclase activity above basal levels (1.55 +/- 0.09-fold (mean +/- S.E. of mean), n = 10 animals). Half-maximal stimulation was observed at 17 +/- 11 nM-VIP (S.D., n = 9). 3. Related peptides, e.g. secretin, glucagon, gastric inhibitory peptide, human pancreatic growth hormone releasing factor, and peptide having N-terminal histidine and C-terminal isoleucine amide (PHI), were without effect or gave lower stimulations of adenylate cyclase activity when tested at 1 microM. 4. Significant VIP degradation was observed under the assay conditions used but this did not substantially alter the response or selectivity to VIP. 5. In separate preparations of isolated glomeruli and proximal tubules addition of 1 microM-VIP resulted in a 3.3 +/- 1.1-fold (S.D., n = 3) and 2.2 +/- 1.0-fold (S.D., n = 3) stimulation (respectively) of adenylate cyclase activity. 6. In isolated medullary tubule suspensions, isolated by collagenase-hyaluronidase digestion of outer (red) medulla, and in thick ascending-limb-enriched preparations prepared by Percoll density gradient fractionation, 1 microM-VIP significantly increased adenylate cyclase activity by 2.4 +/- 0.6-fold (S.D., n = 3) and 2.1 +/- 0.7-fold (S.D., n = 3) respectively. 7. A possible role for VIP in the regulation of renal function in the rabbit is discussed in relation to the occurrence of VIP stimulation of adenylate cyclase activity in several renal cellular elements.

Published
1987
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181. Control of cultured epithelial (MDCK) cell transport function: identification of a beta-adrenoceptor coupled to adenylate cyclase.

Author

Rugg EL and Simmons NL

Subjects
Biological Transport, Catecholamines pharmacology, Cell Line, Cyclic AMP metabolism, Epithelial Cells, Epithelium metabolism, Iodocyanopindolol, Kidney cytology, Kidney enzymology, Phenotype, Pindolol analogs & derivatives, Pindolol metabolism, Adenylyl Cyclases metabolism, Kidney metabolism, Receptors, Adrenergic, beta metabolism
Abstract

A catecholamine-sensitive adenylate cyclase activity was observed in cell homogenates of cultured renal epithelial (MDCK) cells. 10 microM isoprenaline gave a 2.85-fold increase in adenylate cyclase activity above basal levels. A series of adrenoceptor agonists gave a relative potency series of isoprenaline greater than adrenaline greater than noradrenaline (K1(9) values of 1.9 X 10(-7), 1.6 X 10(-6) and 1.9 X 10(-5) M respectively), consistent with activation of a beta-adrenoceptor. Intracellular accumulation of cyclic AMP was also stimulated by 10 microM isoprenaline, peak values being observed after 2 min, followed by a decline to lower maintained levels. The phosphodiesterase inhibitor isobutylmethylzanthine (1 mM) augmented isoprenaline-stimulated cyclic AMP accumulation. In epithelial preparations of MDCK cells grown upon Millipore filters and mounted in Ussing chambers isoprenaline was only effective in elevating intracellular cyclic AMP contents when applied to the basal cell surfaces. Direct measurement of beta-adrenoceptor density and subtype was determined by (+/-)-3-[125I]iodocyanopindolol binding to MDCK cell homogenates. Binding consisted of a saturable component (Vmax = 14.9 fmol/mg cell protein) of high molar affinity (Kd = 10.8 pM) and a non-saturable component which showed a linear dependence on iodocyanopindolol concentration. In addition to the high-affinity binding site, dissociation kinetics revealed a low-affinity component (Kd = 450 pM) comprising 24% of saturable binding. Competition of (+/-)-3-[125I]iodocyanopindolol binding with beta-adrenoceptor agonists and antagonists was entirely consistent with the existence of a beta 2-adrenoceptor. Examination of various MDCK cultures and clones revealed the existence of MDCK cultures whose adenylate cyclase activity was unresponsive to catecholamine stimulation; this correlated with a reduced or undetectable level of (+/-)-3-[125I]iodocyanopindolol binding. The control of transepithelial chloride transport in MDCK epithelia by catecholamines is discussed.

Published
1984
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182. [3H]bumetanide binding and inhibition of Na+ + K+ + Cl- co-transport: demonstration of specificity by the use of MDCK cells deficient in co-transport activity.

Author

Popowicz P and Simmons NL

Subjects
Animals, Biological Transport, Active drug effects, Bumetanide pharmacology, Cell Line, Epithelium metabolism, Kidney drug effects, Kidney metabolism, Kinetics, Bumetanide metabolism, Chlorides metabolism, Diuretics metabolism, Potassium metabolism, Sodium metabolism
Abstract

Cultured renal MDCK cells possess a Na+ + K+ + Cl- co-transport system which is inhibited with high affinity by loop diuretics (K0.5 for bumetanide inhibition = 0.28 microM). By the use of 'mutant' cell lines deficient in co-transport flux the specific interaction of [3H]bumetanide with the co-transporter has been identified. [3H]Bumetanide uptake in parental MDCK-N cells in the range 0-1 microM comprises a non-saturable linear component, assessed by the inclusion of 100 microM-unlabelled bumetanide and a saturable component (K0.5 = 0.19 microM and Bmax = 0.55 pmol/10(6) cells). Though the magnitude of the linear non-specific component was little different between the parental MDCK-N cell line and two co-transport-deficient mutant cell lines (LKC1 and LKA3), the magnitude of the saturable component was markedly reduced in both co-transport-deficient mutants. In addition to the saturable component associated with flux inhibition a lower-affinity uptake displaceable by excess unlabelled bumetanide was evident in MDCK-N cells comprising 8 pmol/10(6) cells measured at 10 microM-[3H]bumetanide. This lower-affinity uptake was present in both co-transport-deficient mutant cell lines confirming its lack of association with inhibition of co-transport flux. In MDCK cells possessing the co-transporter, an estimate of the turnover number was made when co-transport flux and specific bumetanide uptake at 0.5 microM-[3H]bumetanide were measured in the same cell batch. At 37 degrees C this was 113 K+ ions site-1 s-1.

Published
1988
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183. Loop-diuretic inhibition of adrenaline-stimulated Cl- secretion in a cultured epithelium of renal origin (MDCK).

Author

Brown CD, Rugg EL, and Simmons NL

Subjects
Animals, Bumetanide metabolism, Cell Line, Chlorides metabolism, Dogs, Electrophysiology, Epithelium metabolism, Kidney cytology, Kidney drug effects, Kidney physiology, Potassium metabolism, Radioisotopes, Rubidium metabolism, Stimulation, Chemical, Bumetanide pharmacology, Chlorides antagonists & inhibitors, Diuretics pharmacology, Epinephrine pharmacology, Furosemide pharmacology, Kidney metabolism, Sulfonamides pharmacology
Abstract

Loop diuretics (furosemide, bumetanide, piretanide) inhibit the adrenaline-stimulated short-circuit current due to transepithelial Cl- secretion in cultured renal epithelial layers (MDCK). The inhibition of Cl- secretion by loop diuretics is consistent with the presence of basal-lateral 'cotransport' since inhibition is observed only with the basal applications of loop diuretics, is of high potency (half-maximal bumetanide inhibition being observed at 0.8 microM, bumetanide being more potent than furosemide) and is without effect upon the adrenaline-stimulated increase in tissue conductance. Loop diuretics are also shown to inhibit a component of K+ efflux across the basal-lateral surfaces. Cellular uptake of [3H]bumetanide across both apical and basal surfaces of intact epithelial layers was measured in order to localize the cotransport system. A component of cellular [3H]bumetanide uptake sensitive to competition by 0.1 mM unlabelled loop diuretic is only observed from the basal-lateral cell surfaces. There is no evidence for transepithelial bumetanide secretion as is seen in renal cortex.

Published
1986
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184. K+ transport in 'tight' epithelial monolayers of MDCK cells. Evidence for a calcium-activated K+ channel.

Author

Brown CD and Simmons NL

Subjects
Animals, Biological Transport, Active drug effects, Cell Line, Dogs, Epithelium drug effects, Epithelium metabolism, Ion Channels drug effects, Kinetics, Mathematics, Rubidium metabolism, Calcium pharmacology, Ion Channels metabolism, Kidney metabolism, Potassium metabolism
Abstract

Measurements of 86Rb efflux across the apical and basal-lateral aspects of intact monolayers of 'high-resistance' MDCK cells mounted in Ussing chambers have been made. A transient increase in 86Rb efflux across both epithelial borders upon stimulation with adrenalineeeeeee or ionophore A23187 is observed. The increased 86Rb across the basal cell aspects is of greatest quantitative importance. Measurements of total cellular K+ contents by flame photometry of tissue extracts indicate a net loss of K+ following adrenalin addition. The effects of adrenalin and ionophore A23187 upon 86Rb efflux are abolished in 'Ca2+ -free' media. The properties of the Ca2+ -dependent increase in 86Rb efflux show similarities to Ca2+ -activated K+ conductances in other tissues, notably human red cells, including inhibition by quinine (1 mM), tetraethylammonium (25 mM) and insensitivity to bee venom toxin (apamin) (25 nM). Adrenalin is only effective when applied to the basal bathing solution suggesting that the receptors mediating adrenalin action are located upon the basal-lateral membranes. Half maximal stimulation of 86Rb efflux by adrenalin is observed at 9.1 X 10(-7) M. The action of various adrenergic receptor agonists and antagonists are consistent with adrenalin action being mediated by an alpha-adrenergic receptor.

Published
1982
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185. Distribution of vasoactive intestinal peptide-sensitive adenylate cyclase activity along the rabbit nephron.

Author

Griffiths NM, Chabardès D, Imbert-Teboul M, Siaume-Perez S, Morel F, and Simmons NL

Subjects
Animals, Kidney Tubules drug effects, Kidney Tubules, Collecting drug effects, Kidney Tubules, Collecting enzymology, Kidney Tubules, Distal drug effects, Kidney Tubules, Distal enzymology, Kidney Tubules, Proximal drug effects, Kidney Tubules, Proximal enzymology, Male, Rabbits, Adenylyl Cyclases metabolism, Kidney Tubules enzymology, Vasoactive Intestinal Peptide pharmacology
Abstract

The effect of vasoactive intestinal peptide (VIP) upon adenylate cyclase (AC) activity has been determined in defined microdissected renal tubules isolated from collagenase-treated rabbit kidneys. In the presence of 10 microM GTP, 1 microM VIP gave marked stimulations of AC over basal values in the bright portion of the distal convoluted tubule (DCTb) (10.1-fold), and in the collecting tubule isolated from the inner stripe of the outer medulla (OMCTi, 7.8-fold). Less pronounced effects of VIP were found in the medullary collecting tubule isolated from the outer stripe (2.5-fold) and in the granular portion of the distal convoluted tubule (2.0-fold). VIP stimulation of AC activity in these segments amounted to 25 to 40% of the effect elicited by other agonists (arginine vasopressin, calcitonin or parathyroid hormone) in their respective target segments. A low response to VIP was observed in the cortical thick ascending limb (1.8-fold) which represented less than 5% of the calcitonin-stimulated AC activity. In the thin descending limb VIP produced a slight and variable stimulation of AC. VIP was without effect upon AC in the convoluted and straight portions of the proximal tubule, the medullary thick ascending limb and the cortical collecting tubule. Half-maximal stimulation of AC by VIP was observed at 26 +/- 10 nM (n = 3) in OMCTi and at 19 nM (n = 2) in DCTb. Related peptides glucagon, secretin and PHI gave lower stimulations of AC compared to VIP in OMCTi. Conversely for rat OMCTi, under identical conditions, glucagon was much more effective than VIP.

Published
1988
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186. The action of ouabain upon chloride secretion in cultured MDCK epithelium.

Author

Simmons NL

Subjects
Adenosine Triphosphate pharmacology, Animals, Biological Transport, Active drug effects, Cell Line, Dogs, Epithelium drug effects, Epithelium metabolism, Inulin, Kidney, Kinetics, Potassium metabolism, Sodium metabolism, Chlorides metabolism, Ouabain pharmacology
Abstract

Net Na+ loss from confluent monolayers of cultured epithelial cells grown on plastic petri dishes into choline chloride is consistent with loss from two separate pools (t 1/2 2.4 and 43.7 min). Tissue K+ is lost with a single time constant (t 1/2 76.9 min). Since tissue equilibration of [14C]inulin is also rapid (t 1/2 approx. 1 min), it is inferred that the fast component of Na+ loss comprises loss from extracellular pools, whereas the slow component comprises intracellular loss. By washing extracellular cations from cell monolayers and directly measuring cell numbers and volumes by Coulter Counter, intracellular Na+ and K+ concentrations were estimated to be 16 +/- 2 (S.E.) and 151 +/- 2 (S.E.) mM. Ouabain at high concentrations (1 x 10(-5) to 1 x 10(-3) M) raised intracellular Na+, and lowered intracellular K+. The t 1/2 for cation equilibration with the external medium was approx. 70 min (+ ouabain). Ouabain inhibited ATP-stimulated Cl- secretion by epithelial MDCK monolayers mounted in Ussing chambers. The inhibition was time-dependent and consistent with dissipation of intracellular cation gradients. The ATP-dependent increase in monolayer conductance, observed in control tissues, was largely unaffected by ouabain.

Published
1981
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187. Biochemical and physiological adaptation to chronic propranolol treatment in the rat.

Author

Cramb G, Griffiths NM, Aiton JF, and Simmons NL

Subjects
Adenylyl Cyclases analysis, Animals, Blood Pressure drug effects, Heart Rate drug effects, Humans, Male, Myocardium analysis, Propranolol blood, Rats, Rats, Inbred Strains, Receptors, Adrenergic, beta analysis, Sarcolemma analysis, Substance Withdrawal Syndrome, Adaptation, Physiological, Propranolol pharmacology
Abstract

The biochemical and physiological aspects of isoprenaline sensitivity in normotensive rats were examined during and after abrupt withdrawal of chronic propranolol treatment. Serum propranolol concentrations in rats chronically treated for one month (0.125% propranolol in drinking water: 75-100 mg/kg/day) ranged from 7 to 23 ng/ml. At the height of the blockade, rats showed a decreased responsiveness in vivo to isoprenaline-induced increase in heart rate and fall in blood pressure; the ED50 values for isoprenaline being increased some 20- and 4-fold respectively. There was a 180% increase in beta-receptor number in sarcolemmal membranes isolated from ventricular muscle of these animals, together with increased basal (290%), fluoride- (100%), forskolin- (80%) and isoprenaline-stimulated (125%) adenylate cyclase activity. Twenty-four hours after propranolol withdrawal, serum propranolol concentrations were reduced by over 95%. At this time rats exhibited increased chronotropic and blood pressure responses to i.v. isoprenaline, indicated by the reduced ED50 values (2-fold and 12-fold respectively compared to controls). In addition, cardiac sarcolemmal beta-receptor number and adenylate cyclase activities were still significantly elevated above those of controls; 35% increase in beta-receptor number and increases of 96, 26, 13 and 37% in basal, fluoride-, forskolin- and isoprenaline-stimulated adenylate cyclase activities respectively. Forty-eight hours after drug withdrawal serum propranolol concentrations were only just detectable at 0.5 +/- 0.1 ng/ml. Although sarcolemmal beta-receptor numbers were still elevated (23%) isoprenaline-stimulated adenylate cyclase activity had returned to control values. However, both the fluoride- and forskolin-stimulated enzyme activities were decreased below control values by 12 and 23% respectively, suggestive of a reduction in the catalytic capacity of the adenylate cyclase complex. In parallel with the reduction in beta-receptor number and adenylate cyclase activity, the chronotropic response to i.v. isoprenaline had also returned to control values. In contrast, the blood pressure response to i.v. isoprenaline was still elevated in these animals indicated by the 5-fold reduction in the ED50 value compared with control animals.

Published
1984
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188. Attribution of [3H]bumetanide binding to the Na+K+Cl 'co-transporter' in rabbit renal cortical plasma membranes: a caveat.

Author

Griffiths NM and Simmons NL

Subjects
4,4'-Diisothiocyanostilbene-2,2'-Disulfonic Acid, 4-Acetamido-4'-isothiocyanatostilbene-2,2'-disulfonic Acid analogs & derivatives, 4-Acetamido-4'-isothiocyanatostilbene-2,2'-disulfonic Acid metabolism, Animals, Binding Sites, Binding, Competitive, Cell Membrane metabolism, Cells, Cultured, Female, Kidney Cortex drug effects, Kidney Medulla metabolism, Kinetics, Male, Probenecid pharmacology, Rabbits, Radioligand Assay, Bumetanide metabolism, Diuretics metabolism, Kidney Cortex metabolism
Abstract

The 3H-labelled loop diuretic bumetanide has been used to investigate loop diuretic binding to purified plasma membranes from rabbit kidney cortex (and outer medulla). Bumetanide binding to partially purified cortical plasma membranes in the range 0-10 microM, in a buffer containing principally Na, K and Cl ions, consists of a linear non-saturable component as assessed by 100 microM unlabelled bumetanide, and a saturable component consisting of high- and low-affinity binding sites, half-maximal binding being observed at 1.3 and 220 microM, respectively. The high-affinity site was found to be present in a fraction enriched in basolateral membrane markers when plasma membranes were further purified on a continuous Percoll gradient, whilst bumetanide binding to fractions enriched in brush-border or mitochondrial membrane markers was of lower affinity. Several features of bumetanide binding to basolateral membrane marker-enriched fractions are consistent with binding to the Na+K+Cl 'co-transporter' inhibited by loop diuretics: half-maximal binding was observed at 1.8 microM, with a finite maximal binding capacity of 78 pmol/mg. The relative efficacy of several loop diuretics for displacement of [3H]bumetanide was bumetanide greater than piretanide greater than furosemide = ethacrynic acid. Binding of loop diuretic was found to be dependent upon the medium ionic composition, Na, K and Cl being required to give maximal binding. The ability of probenecid and 4,4'-diisothiocyanostilbene-2,2'-disulphonate (DIDS) to compete with [3H]bumetanide was tested since these compounds are known inhibitors of anion secretion in the proximal nephron. Both DIDS and probenecid were able to effectively compete with [3H]bumetanide binding. A test of the ability of these compounds to inhibit 'co-transport' flux was made in intact MDCK cells using the ouabain-insensitive 86Rb (K) influx. Probenecid, at the concentrations seen to displace [3H]bumetanide binding to renal plasma membranes, was an effective inhibitor of 'co-transport' whereas DIDS was not. The adequacy of present criteria as to the identification of the 'co-transporter' in renal membranes using [3H]bumetanide binding are discussed in the light of this evidence.

Published
1987
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189. Proceedings: A sugar-dependent increase in red cell stability.

Author

Naftalin RJ and Simmons NL

Subjects
Dose-Response Relationship, Drug, Fructose analysis, Fructose pharmacology, Glucose analysis, Humans, Hypotonic Solutions, Lethal Dose 50, Osmotic Fragility drug effects, Regression Analysis, Temperature, Glucose pharmacology, Hemolysis drug effects
Published
1974

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