Your search keyword '"Curran PF"' showing total 29 results

1. Structure-affinity relationships of substrates for the neutral amino acid transport system in rabbit ileum.

Author

Preston RL, Schaeffer JF, and Curran PF

Subjects

Amino Acids metabolism, Animals, Binding Sites, Binding, Competitive, Biological Transport, Carbon Radioisotopes, Cell Membrane metabolism, In Vitro Techniques, Kinetics, Leucine analogs & derivatives, Leucine metabolism, Methionine analogs & derivatives, Phenylalanine pharmacology, Rabbits, Valine analogs & derivatives, Valine metabolism, Ileum metabolism, Methionine metabolism

Abstract

The apparent affinities of various amino acids for the neutral amino acid transport system in rabbit ileum were determined by measuring the inhibition of L-methionine-(14)C influx across the brush border membrane. The apparent affinity was very low for compounds lacking an alpha-amino group, compounds with the alpha-hydrogen substituted by a methyl group, D-compounds, compounds with tertiary branching in the side chain, compounds with either a positive or negative charge in the side chain, and in most cases, compounds with a hydrophilic moiety in the side chain. High apparent affinities were exhibited by compounds with unbranched carbon or carbon-sulfur side chains. Branched compounds such as valine and leucine exhibited affinities which correlate with binding of only the linear portion of the side chain. The calculated change in free energy of binding is 370 cal/mol/CH(2) group which suggests the binding region for the side chain is partially hydrophobic. The affinities of families of analogues, derivatives of cysteine, methionine, serine, alanine, valine, and phenylalanine, correlate with their calculated octanol/water partition coefficients and are also correlated with apparent structural and electronic differences between families. The data permit a preliminary description of the functional geometry of the neutral amino acid transport site. The site contains a region for binding the alpha-amino group, alpha-carboxyl group, and side chain. The regions about the alpha-amino group and alpha-hydrogen are quite sterically limited. The side chain binding region is hydrophobic in nature and appears to be shallow, binding only the linear portion of branched or ring compounds.

Published

1974

2. Regulation of protein phosphorylation and sodium transport in toad bladder.

Author

Walton KG, DeLorenzo RJ, Curran PF, and Greengard P

Subjects

Adenine pharmacology, Amiloride pharmacology, Animals, Autoradiography, Biological Transport, Active, Bufo marinus, Cell Membrane Permeability, Cyclic AMP pharmacology, Electrophoresis, Polyacrylamide Gel, In Vitro Techniques, Manganese pharmacology, Molecular Weight, Phosphorus metabolism, Prostaglandins pharmacology, Proteins isolation & purification, Sodium Dodecyl Sulfate, Theophylline pharmacology, Time Factors, Vasopressins pharmacology, Phosphoproteins biosynthesis, Proteins metabolism, Sodium metabolism, Urinary Bladder metabolism

Abstract

It is well established that active sodium-ion transport and water flow across isolated toad bladder are increased by antidiuretic hormone (ADH) and by cAMP. These agents were also observed in previous studies to cause changes in the amount of radioactive phosphate in a specific protein in the toad bladder. This protein, found by SDS-polyacrylamide gel electrophoresis of toad bladder epithelial preparations, had an apparent molecular weight of 49,000 daltons. In the present study, a correlation was found between the ability of a variety of substances to affect the amount of radioactive phosphate in this 40,000-dalton protein and their ability to alter the rate of sodium transport. Thus several agents (ADH, cAMP, theophylline, adenine, prostaglandin E1, and Mn Cl-2) caused a decrease in the amount of radioactive phosphate in the 49,000-dalton protein and also stimulated active sodium transport across the bladder. Conversely, ZnCl-2 produced an increase in the amount of radioactive phosphate in this protein and an inhibition of sodium transport. With each of these agents, the time-course of change in phosphorylation of this protein was, in general, similar to that for sodium transport. A second phosphoprotein, with an apparent molecular weight of about 42,000 daltons, showed changes in parallel with, but less extensive than, those observed in the 49,000 dalton protein. There was no consistent relationship between changes in level of phosphorylation of either in the 49,000- or 42,000- dalton protein and changes in osmotic water permeability. The results are compatible with the possibility that regulation by ADH and by cAMP of sodium transport in the toad bladder epithelium may be mediated through regulation of the amount of phosphate in a specific protein.

Published

1975

3. Characteristics of sodium flux from serosa to mucosa in rabbit ileum.

Author

Desjeux JF, Tai YH, and Curran PF

Subjects

Alkanesulfonates pharmacology, Animals, Bicarbonates pharmacology, Biological Transport, Chlorides pharmacology, Electrophysiology, Ethanol pharmacology, Glucose pharmacology, In Vitro Techniques, Male, Ouabain pharmacology, Oxygen pharmacology, Permeability, Rabbits, Theophylline pharmacology, Ileum metabolism, Intestinal Mucosa metabolism, Serous Membrane metabolism, Sodium metabolism

Abstract

Sodium flux from serosa to mucosa, J(sm) (Na) in rabbit ileum in vitro has been studied as a function of applied electrical potential at equal sodium concentrations in the bathing solutions. The results indicate that J(sm) (Na) involves two pathways, a diffusional flux through a paracellular shunt pathway and a flux that is independent of applied potential and presumably involves a transcellular pathway. The latter pathway comprises approximately 25 % of J(sm) (Na) in Ringer's solution containing 10 mM glucose and 25 mM bicarbonate. It is stimulated significantly by theophylline unaffected by removal of glucose or addition of ouabain but is reduced to negligible values by anoxia, dinitrophenol, and replacement of all chloride and bicarbonate by isethionate. Thus this component of J(sm) (Na) has a number of characteristics consistent with involvement in a specific secretory process mediating an electrically neutral secretory transport of sodium plus anion from serosa to mucosa. In addition to stimulating this process, theophylline significantly reduced the permeability of the paracellular shunt pathway to sodium.

Published

1974

4. The effect of calcium on sodium transport by frog skin.

Author

CURRAN PF and GILL JR Jr

Subjects

Animals, Biological Transport, Biological Transport, Active, Anura, Calcium pharmacology, Chlorides, Ion Transport, Permeability, Skin, Skin Physiological Phenomena, Sodium metabolism

Abstract

Calcium added to the solution bathing the outside of isolated frog skin caused a reversible decrease in net sodium transport across the skin. At constant sodium concentration, the inhibition of transport increased with increasing calcium concentration, but approached a limiting value. This maximum degree of inhibition was found to depend on sodium concentration; sodium transport could be inhibited by 60 per cent at 96 mM sodium, but by only 18 per cent at 19 mM sodium. The relative effectiveness of a given calcium concentration was also greater the higher the sodium concentration. The unidirectional flux of chloride across the short-circuited skin was decreased by calcium to approximately the same degree as active sodium transport. The results have been interpreted in terms of a relatively non-specific decrease in permeability of the outward facing membrane of the transporting cells. The resulting decrease in sodium permeability apparently causes a decrease in active sodium transport by reducing the availability of sodium to the transporting system.

Published

1962

5. Kinetic relations of the Na-amino acid interaction at the mucosal border of intestine.

Author

Curran PF, Schultz SG, Chez RA, and Fuisz RE

Subjects

Alanine metabolism, Animals, Biological Transport, Active, Cell Membrane Permeability, Choline pharmacology, Female, Ileum metabolism, Kinetics, Leucine metabolism, Male, Models, Theoretical, Rabbits, Temperature, Valine metabolism, Amino Acids metabolism, Intestinal Mucosa metabolism, Sodium metabolism

Abstract

The relation between unidirectional influxes of Na and amino acids across the mucosal border of rabbit ileum was studied under a variety of conditions. At constant Na concentration in the mucosal bathing solution, amino acid influx followed Michaelis-Menten kinetics permitting determination of maximal influx and the apparent Michaelis constant, K(t). Reduction in Na concentration, using choline as substitute cation, caused an increase in K(t) for alanine but had no effect on maximal alanine influx. The reciprocal of K(t) was a linear function of Na concentration. Similar results were obtained for valine and leucine and these amino acids competitively inhibited alanine influx both in the presence and in the absence of Na. These results lead to a model for the transport system which involves combination of Na and amino acid with a single carrier or site leading to penetration of both solutes. The model predicts that alanine should cause an increase in Na influx and the ratio of this extra Na flux to alanine flux should vary with Na concentration. The observed relation agreed closely with predicted values for Na concentrations from 5 to 140 mM. These results support the hypothesis that interactions between Na and amino acid transport depend in part on a common entry mechanism at the mucosal border of the intestine.

Published

1967

6. Ion and water fluxes in the ileum of rats.

Author

CURRAN PF and SOLOMON AK

Subjects

Animals, Biological Transport, Kinetics, Rats, Diffusion, Ileum, Ions, Sodium, Sodium Chloride metabolism, Water metabolism

Abstract

Studies have been carried out on the movement of salt and water across the small intestine of the rat. Segments of the ileum of anesthetized rats have been perfused in vivo with unbuffered NaCl solutions or isotonic solutions of NaCl and mannitol. Kinetic analysis of movements of Na(24) and Cl(36) has permitted determination of the efflux and influx of Na and Cl. Net water absorption has been measured using hemoglobin as a reference substance. Water was found to move freely in response to gradients of osmotic pressure. Net water flux from isotonic solutions with varying NaCl concentration was directly dependent on net solute flux. The amount of water absorbed was equivalent to the amount required to maintain the absorbed solute at isotonic concentration. These results have been interpreted as indicating that water movement is a passive process depending on gradients of water activity and on the rate of absorption of solute. The effluxes of Na and Cl are linear functions of concentration in the lumen, but both ions are actively transported by the ileum according to the criterion of Ussing (Acta Physiol. Scand., 1949, 19, 43). The electrical potential difference between the lumen and plasma has been interpreted as a diffusion potential slightly modified by the excess of active Cl flux over active Na flux. The physical properties of the epithelial membrane indicate that it is equivalent to a membrane having negatively charged uniform right circular pores of 36 A radius occupying 0.001 per cent of the surface area.

Published

1957

7. The sodium-alanine interaction in rabbit ileum. Effect of alanine on sodium fluxes.

Author

Curran PF, Hajjar JJ, and Glynn IM

Subjects

Animals, Biological Transport, Active drug effects, Ileum drug effects, In Vitro Techniques, Intestinal Mucosa drug effects, Models, Biological, Ouabain pharmacology, Rabbits, Alanine metabolism, Ileum metabolism, Intestinal Mucosa metabolism, Sodium metabolism

Abstract

The interaction between Na transfer and alanine transfer across the mucosal border of rabbit ileum has been studied further by examining the effect of alanine on Na movement. Studies on strips of mucosa treated with ouabain showed that net Na movements against a Na concentration difference could be caused by a concentration difference of alanine. Na extrusion from mucosal cells was demonstrated when cellular alanine concentration exceeded that in the external medium. Conversely, the cells took up Na against a concentration difference when external alanine concentration was greater than cellular concentration. Unidirectional Na efflux from the cells toward the mucosal solution was increased by loading the cells with alanine. The relation between the increment in Na efflux and alanine efflux was approximately that predicted by the model of Curran et al. (reference 2) for the Na-alanine interaction at the mucosal border of the cells. The results offer further indication that the transport system is reversible and symmetrical.

Published

1970

8. The effect of Ca and antidiuretic hormone on Na transport across frog skin. II. Sites and mechanisms of action.

Author

CURRAN PF, HERRERA FC, and FLANIGAN WJ

Subjects

Animals, Biological Transport, Biological Transport, Active, Anura, Calcium, Ions, Permeability, Skin, Sodium, Vasopressins

Abstract

A method has been developed for determining unidirectional Na fluxes across the two faces of the transporting cells in the frog skin. The method has been used to investigate the location of the sites at which Ca and anti-diuretic hormone act to alter the rate of active Na transport across the skin. The results have indicated that the primary effect of both agents is on the Na permeability of the outward facing membrane of the cells. Ca decreases and the hormone increases permeability of this barrier. Neither agent appears to have a direct effect on the active transport system itself assuming that it is located at the inner membrane of the cells. The rate of active Na transport is altered as a result of changes in the size of the Na pool in the cells which occur because of changes in the rate of Na entry through the outer membrane. Thus, the results indicate that the Na permeability of the outer membrane plays an important role in controlling the rate of net active Na transport across the skin.

Published

1963

9. Na, Cl, and water transport by rat ileum in vitro.

Author

CURRAN PF

Subjects

Animals, Biological Transport, Biological Transport, Active, In Vitro Techniques, Rats, Glucose, Ileum physiology, Intestinal Absorption, Ions, Sodium, Sodium Chloride metabolism, Water metabolism

Abstract

Interrelationships between metabolism, NaCl transport, and water transport have been studied in an in vitro preparation of rat ileum. When glucose is present in the mucosal solution, Na and Cl both appear to be actively transported from mucosa to serosa while water absorption is passive and dependent on net solute transport. Removal of glucose from the mucosal solution or treatment with dinitrophenol, monoiodoacetate, or anoxia inhibits active salt transport and as a result, water absorption is also inhibited. The dependence of water absorption on metabolism can be explained as a secondary effect due to its dependence on active salt transport. The relationship between salt and water transport has been discussed in terms of a model system.

Published

1960

10. Direct measurement of uptake of sodium at the outer surface of the frog skin.

Author

Biber TU and Curran PF

Subjects

Animals, Anura, Biological Transport, Electricity, Electrophysiology, In Vitro Techniques, Lithium antagonists & inhibitors, Lithium metabolism, Lithium pharmacology, Skin Absorption, Skin Physiological Phenomena, Sodium administration & dosage, Sodium antagonists & inhibitors, Sodium pharmacology, Sodium Isotopes, Skin metabolism, Sodium metabolism

Abstract

A combination of the methods described by Schultz et al. (6) and by Ussing and Zerahn (9) was used to measure directly the unidirectional uptake of sodium from the outside solution into the frog skin, under short-circuit conditions. The sodium uptake was determined at six sodium concentrations ranging from 3.4 to 114 mM. NaCl was replaced by choline chloride in the solutions bathing both sides of the skin. Sodium uptake is not a linear function of sodium concentration but appears to be composed of two components, a saturating one and one that varies linearly with concentration. The sodium uptake is inhibited by the addition of lithium to the outside solution. The effect appears to be primarily on the saturating component and has the characteristics of competitive inhibition. In addition, lithium uptake by the skin is inhibited by sodium. The effects of lithium cannot be ascribed to changes in electrical potential difference. Measurements with microelectrodes indicate that under short-circuit condition there is no change in the intracellular potential when lithium chloride is added to the outside solution.

Published

1970

11. Response of the frog skin to steady-state voltage clamping. II. The active pathway.

Author

Mandel LJ and Curran PF

Subjects

Animals, Anura, Electric Stimulation, Electrophysiology, In Vitro Techniques, Kinetics, Models, Biological, Potassium pharmacology, Biological Transport, Active, Rana pipiens physiology, Skin metabolism, Sodium metabolism

Abstract

Active Na transport across frog skin was separated from passive Na movement utilizing urea influx as a measure of passive (shunt) permeability. In this manner, the response of the overall active Na transport system to an applied potential was determined over a range from +200 mV to -100 mV. Active Na transport displays saturation as a function of applied potential, and both the level of saturation and the potential at which it is achieved are functions of the Na concentration in the external solution. The saturation with potential appears to involve a different step in the transport process than the saturation of Na flux as a function of external Na concentration. The observations can be qualitatively described by either a one-barrier or two-barrier model of the Na transport system.

Published

1973

12. Dicarboxylic amino acid influx across brush border of rabbit ileum. Effects of amino acid charge on the sodium-amino acid interaction.

Author

Schultz SG, Alvarez OO, Curran PF, and Yu-Tu L

Subjects

Animals, Biological Transport, Active drug effects, Carbon Isotopes, Intestinal Absorption drug effects, Jejunum drug effects, Kinetics, Rabbits metabolism, Aspartic Acid metabolism, Glutamates metabolism, Ileum drug effects, Rabbits drug effects, Sodium pharmacology

Abstract

Glutamate and aspartate influxes across the brush border of rabbit intestine are saturable processes that are subject to competitive inhibition and are markedly influenced by the Na concentration in the mucosal solution. Lowering the Na concentration increases the amino acid concentration needed to elicit a half-maximal influx but does not significantly affect the maximal influx. The interaction between Na and anionic amino acid influx can be described by the same kinetic model that has been applied to the influxes of neutral amino acids and lysine. Comparison of the kinetic parameters for anionic, neutral, and cationic amino acids suggests that amino acid charge influences (a) the stability of the binary (amino acid-site) complex and (b) the affinity of this binary complex for the subsequent binding of Na. A mechanistic interpretation of these interactions is proposed.

Published

1970

13. Na transport across frog skin at low external Na concentrations.

Author

Biber TU, Chez RA, and Curran PF

Subjects

Animals, Biological Transport, Electrophysiology, Models, Theoretical, Anura physiology, Skin Physiological Phenomena, Sodium metabolism

Published

1966

14. K fluxes in frog skin.

Author

Curran PF and Cereijido M

Subjects

Animals, Anura, Dinitrophenols pharmacology, Electrophysiology, Fluoroacetates pharmacology, In Vitro Techniques, Kinetics, Ouabain pharmacology, Potassium Isotopes metabolism, Sodium metabolism, Biological Transport, Active drug effects, Potassium metabolism, Skin metabolism

Abstract

A method has been developed for measuring K influx into the epithelial cells of frog skin from the inside solution. Diffusion delay in the connective tissue has been taken into account. Ninety-four per cent of skin K was found to exchange with K(42) in the inside solution with a single time constant. K influx showed saturation with increasing K concentration, was not altered by imposing a potential difference of +/-200 mv across the skin, and was inhibited by dinitrophenol, fluoroacetate, and ouabain. Relatively low concentrations of dinitrophenol (5 x 10(-5)M) and fluoroacetate (10(-10)M) had no effect on k influx but caused a 40 per cent decrease in net Na flux. There was no correlation between the rate of K uptake at the "inner barrier" and the rate of net Na transport. Reduction of net Na transport by lowering Na concentration in the outside solution caused little change in K uptake. These observations indicate that there is not a significant Na-K exchange involved in active transport of Na across the skin. K influx was found, however, to require Na in the inside bathing solution.

Published

1965

15. Sodium and sugar fluxes across the mucosal border of rabbit ileum.

Author

Goldner AM, Schultz SG, and Curran PF

Subjects

Animals, Glucose pharmacology, Intestinal Absorption, Kinetics, Models, Biological, Phlorhizin pharmacology, Rabbits, Sodium pharmacology, Biological Transport, Active, Galactose metabolism, Glucose metabolism, Hexoses metabolism, Ileum metabolism, Intestinal Mucosa metabolism, Sodium metabolism

Abstract

Unidirectional influxes of sugars and Na from muscosal solution into the cells of rabbit ileum have been examined. The influxes of glucose, galactose, and 3-0-methyl glucose (3 MG) follow Michaelis-Menten type kinetics and are markedly dependent on the presence ofNa in the mucosal solution. For 3 MG, reduction of Na concentration causes a decrease in maximal rate of influx and little change in the "apparent Michaelis constant." There appeared to be little mediated entry of 3 MG into the cells from Na-free solution. The influx of Na was increased by the presence of 3 MG in the mucosal solution and at all Na concentrations tested, there was a 1:1 ratio between sugar influx and the sugar-dependent Na influx. On the basis of these observations, a model has been developed for the sugar transport system involving a transport site that combines with both sugar and Na.

Published

1969

16. Response of the frog skin to steady-state voltage clamping. I. The shunt pathway.

Author

Mandel LJ and Curran PF

Subjects

Animals, Anura, Calcium pharmacology, Carbon Isotopes, Chlorides metabolism, Chlorine, Electrophysiology, In Vitro Techniques, Mannitol metabolism, Membrane Potentials, Osmolar Concentration, Ouabain pharmacology, Potassium metabolism, Radioisotopes, Rana pipiens, Skin drug effects, Sodium antagonists & inhibitors, Sodium metabolism, Sodium Isotopes, Time Factors, Tritium, Cell Membrane Permeability drug effects, Skin Physiological Phenomena, Urea metabolism

Abstract

Properties of the shunt pathway (a pathway in parallel to the Na transport system) in frog skin have been examined. The permeability of this shunt to urea increases markedly when the skin is depolarized to -100 mv (inside negative) but hyperpolarization to +100 mv produces no change in urea permeability compared to short-circuit conditions. The permeability increase at depolarizing potentials is dependent on the external solute concentration and is considerably reduced by the presence of external Ca. Neither urea permeability nor its response to changes in potential difference are affected by complete inhibition of Na transport by ouabain. In ouabain-poisoned skins, movements of Na, K, Cl, and mannitol through the shunt change in parallel with urea movements. Ion fluxes under these conditions and their response to potential can be described by the constant field equation. The selectivity of the shunt is in the order Cl > urea > K > Na > mannitol and this order does not appear to be affected by the absolute magnitude of the shunt permeability. Arguments are presented suggesting that the pathway is mainly between cells and that its permeability may be affected by cell swelling.

Published

1972

17. THE INFLUENCE OF NA CONCENTRATION ON NA TRANSPORT ACROSS FROG SKIN.

Author

CEREIJIDO M, HERRERA FC, FLANIGAN WJ, and CURRAN PF

Subjects

Animals, Biological Transport, Anura, Ions, Permeability, Pharmacology, Research, Skin, Sodium, Sodium Isotopes

Abstract

The effects of changes in Na concentration of the bathing solutions on some transport and permeability properties of the isolated frog skin have been examined. Rate coefficients for unidirectional Na movements across the two major barriers in the skin have been estimated as functions of Na concentration. The results indicate that the "apparent Na permeability" of the outer barrier of the skin decreases markedly when Na concentration in the outer solution is increased from 7 to 115 mM. The observed saturation of rate of Na transport with increasing Na concentration can be ascribed, in part, to this permeability change rather than to saturation of the transport system itself. Unidirectional Cl flux across the short-circuited skin was not significantly altered by an increase in Na concentration from 30 to 115 mM suggesting that the changes in membrane properties are relatively specific for the Na ion. The results also suggest that the movement of Na across the outer membrane may not be due entirely to simple passive diffusion of free Na ions.

Published

1964

18. Amino acid and sugar transport in rabbit ileum.

Author

Schultz SG, Fuisz RE, and Curran PF

Subjects

Animals, Carbon Isotopes, Extracellular Space, In Vitro Techniques, Intestinal Mucosa metabolism, Inulin metabolism, Mannitol metabolism, Ouabain pharmacology, Potassium metabolism, Rabbits, Sodium metabolism, Water-Electrolyte Balance, Alanine metabolism, Biological Transport, Glucose metabolism, Ileum physiology

Abstract

L-Alanine and 3-O-methyl-D-glucose accumulation by mucosal strips from rabbit ileum has been investigated with particular emphasis on the interaction between Na and these transport processes. L-Alanine is rapidly accumulated by mucosal tissue and intracellular concentrations of approximately 50 mM are reached within 30 min when extracellular L-alanine concentration is 5 mM. Evidence is presented that intracellular alanine exists in an unbound, osmotically active form and that accumulation is an active transport process. In the absence of extracellular Na, the final ratio of intracellular to extracellular L-alanine does not differ significantly from unity and the rate of net uptake is markedly inhibited. Amino acid accumulation is also inhibited by 5 x 10(-5)M ouabain. 3-O-methyl-D-glucose accumulation by this preparation is similarly affected by ouabain and by incubation in a Na-free medium. The effects of amino acid accumulation, of ouabain, and of incubation in a Na-free medium on cell water content and intracellular Na and K concentrations have also been investigated. These results are discussed with reference to the two hypotheses which have been suggested to explain the interaction between Na and intestinal nonelectrolyte transport.

Published

1966

19. The effect of Ca and antidiuretic hormone on Na transport across frog skin. I. Examination of interrelationships between Ca and hormone.

Author

HERRERA FC and CURRAN PF

Subjects

Animals, Biological Transport, Anura, Calcium, Skin, Sodium, Vasopressins

Abstract

Ca added to the solution bathing the outside of isolated frog skin causes a decrease in net Na transport across the skin while antidiuretic hormone (ADH) causes an increase. Possible interrelations between the effects of these agents have been examined. The decrease in Na transport caused by Ca was the same before and after treatment of the skin with ADH and the increase in transport caused by ADH was unaffected by the presence of Ca. The relationship between Ca concentration and degree of inhibition of Na transport was not appreciably altered by ADH. These results indicate that Ca and ADH do not compete but act independently at two different sites and these sites appear to be located on the same barrier to Na movement in the skin. Further, Ca causes a decrease in Cl influx across the short-circuited skin but ADH has no effect on Cl movement, again suggesting that the actions of these agents are independent.

Published

1963

20. Calcium and strontium in rat small intestine. Their fluxes and their effect on Na flux.

Author

DUMONT PA, CURRAN PF, and SOLOMON AK

Subjects

Animals, Biological Transport, Rats, Calcium metabolism, Intestine, Small physiology, Intestines, Ions, Sodium, Strontium metabolism

Abstract

Studies have been carried out on movements of Ca and Sr ions in rat small intestine, using the in vivo preparation developed by Curran and Solomon (5). In the concentration range of 0 to 25 mM, Sr flux appears to be passive, though restricted. Ca transport may not, however, be ascribed to passive independent movement of these ions since at higher concentrations (12.5 and 25 mM) Ca return from blood to intestinal lumen increases more than expected. An apparent diffusion coefficient of Ca and Sr ions in the membrane has been calculated and the influence of negative charges within the membrane on cation diffusion has been examined in a semiquantitative manner. Both Ca and Sr ions exercise a drastic effect on active Na absorption from intestine and on concomitant passive water movement. From 0 to 1 mM, Ca and Sr ions cause a sharp increase in Na and water efflux from the lumen. This rising phase is interpreted in terms of combination of the divalent cation with the Na carrier system following Michaelis-Menten kinetics. At concentrations higher than 1 mM, the effect of Ca and Sr ions is reversed and Na and water absorption decreases slowly as Ca or Sr concentration is increased. This falling phase is ascribed to a non-specific Ca effect which produces a general "stiffening" of the membrane.

Published

1960

21. Coupled solute fluxes in toad skin.

Author

Biber TU and Curran PF

Subjects

Animals, Anura, Biological Transport, Active drug effects, Carbon Isotopes, Choline pharmacology, Hypertonic Solutions, Mathematics, Ouabain pharmacology, Sodium Isotopes, Tritium, Mannitol metabolism, Skin metabolism, Sodium metabolism, Urea pharmacology

Abstract

Net inward flux of mannitol across toad skin induced by making the outside solution hypertonic with urea has been investigated. No significant relation between net mannitol flux and net Na flux could be detected when both fluxes were measured simultaneously. In addition, the net mannitol flux caused by hypertonic solution was not altered by inhibition of Na transport with ouabain or by replacement of all Na in the bathing solutions by choline. The rate of net mannitol flux was dependent on the magnitude of the urea concentration difference across the skin and the direction of net flux could be reversed by reversing the direction of the urea concentration difference. These observations suggest that the mannitol transfer is the result of a coupling between the flows of urea and mannitol.

Published

1968

22. Na, Cl, and water transport by rat colon.

Author

CURRAN PF and SCHWARTZ GF

Subjects

Animals, Biological Transport, Biological Transport, Active, Rats, Chlorides metabolism, Colon physiology, Ions, Sodium metabolism, Sodium Chloride, Water metabolism

Abstract

Segments of the colon of anesthetized rats have been perfused in vivo with isotonic NaCl solutions and isotonic mixtures of NaCl and mannitol. Unidirectional and net fluxes of Na and Cl and the net fluxes of water and mannitol have been measured. Net water transport was found to depend directly on the rate of net Na transport. There was no water absorption from these isotonic solutions in the absence of net solute transport, indicating that water transport in the colon is entirely a passive process. At all NaCl concentrations studied, the lumen was found to be electrically negative to the surface of the colon by 5 to 15 mv. Na fluxes both into and out of the lumen were linear functions of NaCl concentration in the lumen. Net Na absorption from lumen to plasma has been observed to take place against an electrochemical potential gradient indicating that Na is actively transported. This active Na transport has been interpreted in terms of a carrier model system. Cl transport has been found to be due almost entirely to passive diffusion.

Published

1960

23. Alanine and sodium fluxes across mucosal border of rabbit ileum.

Author

Schultz SG, Curran PF, Chez RA, and Fuisz RE

Subjects

Animals, Biological Transport, Active, Carbon Isotopes, Choline pharmacology, Female, Ileum metabolism, In Vitro Techniques, Lithium pharmacology, Male, Mannitol pharmacology, Membrane Potentials, Potassium Chloride pharmacology, Rabbits, Sodium Chloride pharmacology, Sodium Isotopes, Tritium, Tromethamine pharmacology, Alanine metabolism, Intestinal Mucosa metabolism, Sodium metabolism

Abstract

Unidirectional influxes of L-alanine and Na from the mucosal solution into the epithelium of in vitro rabbit ileum have been determined. In the presence of 140 mM Na, alanine influx is approximately 2.2 micromoles/hr cm(2), but is inhibited if the NaCl in the mucosal solution is replaced by choline Cl, Tris-Cl, mannitol, LiCl, or KCl. Although alanine influx is strongly dependent upon Na in the mucosal solution, it is uninfluenced by marked reduction of intracellular Na pools. In addition, alanine influx is unaffected by intracellular alanine concentration. Na influx is markedly inhibited by the presence of Li. Evidence is presented that Na transport across the mucosal border cannot be attributed to simple diffusion even though the net flux across this surface is in the direction of the electrochemical potential difference.

Published

1967

24. Alanine efflux across the serosal border of turtle intestine.

Author

Hajjar JJ, Khuri RN, and Curran PF

Subjects

Alanine administration & dosage, Animals, Biological Transport, Epithelial Cells, Epithelium metabolism, In Vitro Techniques, Intestinal Mucosa analysis, Potassium analysis, Serous Membrane metabolism, Sodium analysis, Sodium pharmacology, Alanine metabolism, Intestinal Mucosa metabolism, Turtles metabolism

Abstract

The exit of alanine across the serosal border of the epithelial cells of turtle intestine was measured by direct and indirect techniques. A decrease or an increase in cell Na did not affect the amino acid flux from cell to serosal solution. Cells loaded with Na and alanine did not exhibit any extrusion of alanine when their serosal membranes were exposed to an Na-free medium containing alanine. However, substantial amino acid extrusion was observed across the mucosal cell border under similar conditions. Although alanine flux across the serosal membrane appeared to be Na-independent, it showed a tendency toward saturation as cellular alanine concentration was elevated. The results are consistent with the postulate that the serosal and mucosal membranes of intestinal cells are asymmetrical with respect to amino acid transport mechanisms. The serosal membrane appears to have an Na-independent carrier-mediated mechanism responsible for alanine transport while transport across the mucosal border involves an Na-dependent process.

Published

1972

25. INTRACELLULAR ELECTRICAL POTENTIALS IN FROG SKIN.

Author

CEREIJIDO M and CURRAN PF

Subjects

Animals, Biological Transport, Anions, Anura, Cell Membrane Permeability, Chlorine, Cytoplasm, Electrophysiology, Ions, Potassium, Research, Skin, Sodium, Sulfates

Abstract

The influence of changes in ionic composition of the bathing solutions on intracellular electrical potentials in frog skin has been examined. When the skin bathed in SO(4) Ringer's solution is penetrated with a microelectrode two approximately equal potential jumps were frequently observed and most experiments were carried out with the electrode located between these steps. Substitution of Cl for SO(4) in the bathing solutions caused a decrease in PD across both the "outer" and "inner" barriers. When the skin was short-circuited an average intracellular potential of -18 mv was found with both Cl and SO(4) Ringer's. With the skin in SO4 Ringer's, decrease in Na concentration of the outside solution caused a decrease in PD between the microelectrode and the outside solution which was approximately the same as the decrease in total skin PD. With SO(4) Ringer's, an increase in K concentration in the inside solution caused a marked decrease in total skin PD. However, only 50 per cent of this change occurred at the inner barrier, between the microelectrode and the inside solution. The remainder of the change occurred at the outer barrier. This observation does not appear to be consistent with the model of the skin proposed by Koefoed-Johnson and Ussing (Acta Physiol. Scand., 1958, 42, 298).

Published

1965

26. Inhibition of amino acid transport in rabbit intestine by p-chloromercuriphenyl sulfonic acid.

Author

Schaeffer JF, Preston RL, and Curran PF

Subjects

Animals, Biological Transport drug effects, Dithiothreitol pharmacology, In Vitro Techniques, Intestinal Mucosa metabolism, Intestine, Small drug effects, Kinetics, Methionine pharmacology, Norleucine pharmacology, Rabbits, Sodium pharmacology, Sulfhydryl Reagents pharmacology, Sulfonic Acids pharmacology, Tryptophan pharmacology, Amino Acids metabolism, Intestines drug effects, Mercury pharmacology, Organometallic Compounds pharmacology, Phenylalanine metabolism

Abstract

Influx of phenylalanine across the brush border of rabbit intestine is markedly reduced by treatment with 5 mM p-chloromercuriphenyl sulfonate (PCMBS). The effect is rapidly and completely reversed by dithiothreitol. Phenylalanine influx into PCMBS-treated tissue can be competitively inhibited by other neutral amino acids and follows saturation kinetics. PCMBS causes an increase in the apparent Michaelis constant from the value observed in control tissue but does not alter the maximal influx significantly. Treatment of the tissue with PCMBS leads to a significant reduction in the Na-sensitivity of the transport, and a number of results indicate that the major effect of the reagent is to cause a marked reduction in the affinity of the transport system for Na. The transport system can be partially protected against reaction with PCMBS by phenylalanine and tryptophan but not by methionine or norleucine. The results suggest that PCMBS reacts with a sulfhydryl group in the region of the transport site and may alter conformational changes associated with the binding of substrates.

Published

1973

27. Characteristics of the amino acid transport system in the mucosal border of rabbit ileum.

Author

Hajjar JJ and Curran PF

Subjects

Amidines, Animals, Benzoates, Biological Transport, Active, Carbon Isotopes, Chemical Phenomena, Chemistry, Cinnamates, Kinetics, Male, Models, Biological, Rabbits, Sodium, Amino Acids metabolism, Ileum metabolism, Intestinal Mucosa metabolism, Phenylalanine metabolism

Abstract

The specificity of the neutral amino acid transport system in the brush border was examined by studying the ability of amino acid analogues to inhibit the unidirectional influx of phenylalanine from mucosal solution into the cells. Effects were evaluated in terms of the affinity of various substrates for the amino acid site in the transport system. The affinity of amino acids for the site was proportional to the number of carbon atoms in the side chain. Electron-withdrawing substituents in the ring of phenylalanine increased affinity and electron-releasing groups decreased affinity. Removal of the alpha-amino group from phenylalanine decreased affinity by a factor of approximately 50 and removal of the carboxyl group decreased affinity 12-fold. Effects on affinity of variations in the side chain of the amino acid can be comparable in magnitude to that of the carboxyl group. The effect of sodium ion on the transport system appears to be similar for all compounds tested.

Published

1970

28. Effect of inhibitors on alanine transport in isolated rabbit ileum.

Author

Chez RA, Palmer RR, Schultz SG, and Curran PF

Subjects

Animals, Carbon Isotopes, Cyanides pharmacology, Dinitrophenols pharmacology, Ileum metabolism, Intestinal Mucosa, Iodoacetates pharmacology, Models, Theoretical, Ouabain pharmacology, Rabbits, Sodium metabolism, Alanine antagonists & inhibitors, Biological Transport, Active, Intestinal Absorption drug effects

Abstract

The effects of metabolic inhibitors and ouabain on alanine transport across rabbit ileum, in vitro, have been investigated. Net transport of alanine and Na across short-circuited segments of ileum is virtually abolished by cyanide, 2,4-dinitrophenol, iodoacetate, and ouabain. However, these inhibitors do not markedly depress alanine influx from the mucosal solution, across the brush border, into the intestinal epithelium, and they do not significantly affect the Na dependence of this entry process. The results of this investigation indicate that: (a) the Na dependence of alanine influx does not reflect a mechanism in which the sole function of Na is to link metabolic energy directly to the influx process; and (b) the inhibition of net alanine transport across intestine is, in part, the result of an increased rate coefficient for alanine efflux out of the cell across the brush border. Although these findings do not exclude a direct link between metabolic energy and alanine efflux, the increased efflux may be the result of the increased intracellular Na concentration in the presence of these inhibitors. The results of these studies are qualitatively consistent with a model for alanine transport across the brush border which does not include a direct link to metabolic energy.

Published

1967

29. The sodium-alanine interaction in rabbit ileum. Effect of sodium on alanine fluxes.

Author

Hajjar JJ, Lamont AS, and Curran PF

Subjects

Animals, Biological Transport, Active, Carbon Isotopes, Choline pharmacology, Cyanides pharmacology, Ileum drug effects, In Vitro Techniques, Intestinal Mucosa drug effects, Kinetics, Models, Biological, Ouabain pharmacology, Rabbits, Alanine metabolism, Ileum metabolism, Intestinal Mucosa metabolism, Sodium metabolism

Abstract

The model of the interaction between Na and alanine at the mucosal border of rabbit ileum has been tested further by examining the efflux of alanine from the cells toward the mucosal solution. Alanine efflux shows a tendency toward saturation as cellular alanine concentration increases and is influenced by cellular Na concentration. A decrease in cell Na concentration causes an increase in the apparent Michaelis constant with little change in maximal efflux rate. Studies on strips of mucosa treated with ouabain or cyanide showed that the direction of net alanine transfer between the cells and the medium is determined by the direction of the Na concentration difference. The cells extrude alanine against a concentration difference when cell [Na] exceeds medium [Na] and accumulate alanine when cell [Na] is less than medium [Na]. The observations are consistent with the model previously suggested involving a transport site that combines with and translocates both Na and alanine, and with the concept that the Na concentration difference between mucosal solution and cytoplasm provides at least part of the energy for active transport of alanine.

Published

1970