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1

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Electrogenic properties of the sodium-alanine cotransporter in pancreatic acinar cells: II. Comparison with transport models (1986)

Jauch, P. ; Läuger, P.

Springer

The journal of membrane biology 94 (1986), S. 117-127

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ISSN: 1432-1424

Keywords: cotransport ; electrogenic transport ; sodiumcoupled amino-acid transport ; current-voltage characteristic

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary In this paper, the results of the preceding electrophysiological study of sodium-alanine cotransport in pancreatic acinar cells are compared with kinetic models. Two different types of transport mechanisms are considered. In the “simultaneous” mechanism the cotransporterC forms a ternary complexNCS with Na+ and the substrateS; coupled transport of Na+ andS involves a conformational transition between statesNC′S andNC″S with inward- and outward-facing binding sites. In the “consecutive” (or “ping-pong”) mechanism, formation of a ternary complex is not required; coupled transport occurs by an alternating sequence of association-dissociation steps and conformational transitions. It is shown that the experimentally observed alanine- and sodium-concentration dependence of transport rates is consistent with the predictions of the “simultaneous” model, but incompatible with the “consecutive” mechanism. Assuming that the association-dissociation reactions are not rate-limiting, a number of kinetic parameters of the “simultaneous” model can be estimated from the experimental results. The equilibrium dissociation constants of Na+ and alanine at the extracellular side are determined to beK N ″ 〈-64mm andK S ″ 〈-18mm. Furthermore, the ratioK N ″ /K N S″ of the dissociation constants of Na+ from the binary (NC) and the ternary complex (NCS) at the extracellular side is estimated to be 〈-6. This indicates that the binding sequence of Na+ andS to the transporter is not ordered. The current-voltage behavior of the transporter is analyzed in terms of charge translocations associated with the single-reaction steps. The observed voltage-dependence of the half-saturation concentration of sodium is consistent with the assumption that a Na+ ion that migrates from the extracellular medium to the binding site has to traverse part of the transmembrane voltage.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871192

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2

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Electrogenic properties of the sodium-alanine cotransporter in pancreatic acinar cells: I. Tight-seal whole-cell recordings (1986)

Jauch, P. ; Petersen, O. H. ; Läuger, P.

Springer

The journal of membrane biology 94 (1986), S. 99-115

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ISSN: 1432-1424

Keywords: cotransport ; electrogenic transport ; sodium-coupled amino-acid transport ; pancreatic acinar cells ; whole-cell recording

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Electrical currents associated with sodium-coupled alanine transport in mouse pancreatic acinar cells were studied using the method of whole-cell recording with patch pipettes. Single cells or small clusters of (electrically coupled) cells were isolated by collagenase treatment. The composition of the intracellular solution could be controlled by internal perfusion of the patch pipette. In this way both inward and outward currents could be measured under “zero-trans” conditions, i.e., with finite concentrations of sodium andl-alanine on one side and zero concentrations on the other. Inward andoutward currents for equal but opposite concentration gradients were found to be of similar magnitude, meaning that the cotransporter is functionally nearly symmetric. The dependence of current on the concentrations of sodium andl-alanine exhibited a Michaelis-Menten behavior. From the sodium-concentration dependence of current as well as from the reversal potential of the current in the presence of an alanine-concentration, gradient, a sodium/alanine stoichiometric ratio of 1:1 can be inferred. The finding that N-methylated amino acids may substitute, forl-alanine, as well as the observed pH dependence of currents indicate that the pancreatic alanine transport system is similar to (or identical with) the “A-system” which is widespread in animal cells. The transport system is tightly coupled with respect to Na+; alanine-coupled inward flow of Na+ is at least 30 times higher than uncoupled Na+ flow mediated by the cotransporter. The current-voltage characteristic of the cotransporter could be (approximately) determined from the difference of transmembrane current in the presence and in the absence ofl-alanine. The sodium-concentration dependence of the current-voltage characteristic indicates that a Na+ ion approaching the binding site from the extracellular medium has to cross part of the transmembrane electric field.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871191

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3

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A microscopic model for the current-voltage behaviour of the Na,K-pump (1986)

Läuger, P. ; Apell, H.-J.

Springer

European biophysics journal 13 (1986), S. 309-321

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ISSN: 1432-1017

Keywords: Na, K-pump ; active transport ; electrogenic transport ; current-voltage behaviour ; Post-Albers scheme

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Physics

Notes: Abstract The current voltage characteristic of the Na, K pump is described on the basis of a modified Post-Albers cycle. The voltage dependence of the rate constants is derived from the elementary chargetranslocations associated with the single reaction steps. Charge displacements result from movements of the sodium- or potassium-loaded binding sites, as well as from motions of polar groups in the pump molecule. If part of the transmembrane voltage drops between the alkali-ion binding sites and the aqueous solution, the binding constants become voltage-dependent. Depending on the values of the microscopic parameters, the current-voltage characteristic may assume a variety of different shapes. Saturating behaviour results when one or more voltage-independent reaction steps become rate limiting. Non-monotonic current-voltage curves exhibiting regions of negative pump conductance are predicted when, at least in one of the transitions, charge is moved against the direction of overall charge-translocation. The theoretical predictions are compared with recent experimental studies of voltage-dependent pump currents.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00254213

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4

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Voltage dependence of sodium-calcium exchange: Predictions from kinetic models (1987)

Läuger, P.

Springer

The journal of membrane biology 99 (1987), S. 1-11

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ISSN: 1432-1424

Keywords: Na−Ca exchange ; electrogenic transport ; current-voltage characteristic ; membrane potential ; transport models

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Voltage effects on the Na−Ca exchange system are analyzed on the basis of two kinetic models, a “consecutive” and a “simultaneous” reaction scheme. The voltage dependence of a given rate constant is directly related to the amount of charge which is translocated in the corresponding reaction step. Charge translocation may result from movement of an ion along the transport pathway, from displacement of charged ligand groups of the ion-binding site, or from reorientation of polar residues of the protein in the course of a conformational transition. The voltage dependence of ion fluxes is described by a set of coefficients reflecting the dielectric distances over which charge is translocated in the individual reaction steps. Depending on the charge of the ligand system and on the values of the dielectric coefficients, the flux-voltage curve can assume a variety of different shapes. When part of the transmembrane voltage drops between aqueous solution and binding site, the equilibrium constant of ion binding becomes a function of membrane potential. By studying the voltage dependence of ion fluxes in a wide range of sodium and calcium concentrations, detailed information on the microscopic properties of the transport system may be obtained.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870617

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5

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Charge translocation by the Na,K-pump: I. Kinetics of local field changes studied by time-resolved fluorescence measurements (1991)

Bühler, R. ; Stürmer, W. ; Apell, H. -J. ; [et al.]

Springer

The journal of membrane biology 121 (1991), S. 141-161

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ISSN: 1432-1424

Keywords: Na, K-ATPase ; ion pumps ; electrogenic transport ; voltage-sensitive dyes ; electrochromic effects

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Membrane fragments containing a high density of Na, K-ATPase can be noncovalently labeled with amphiphilic styryl dyes (e.g., RH 421). Phosphorylation of the Na,K-ATPase by ATP in the presence of Na+ and in the absence of K+ leads to a large increase of the fluorescence of RH 421 (up to 100%). In this paper evidence is presented that the styryl dye mainly responds to changes of the electric field strength in the membrane, resulting from charge movements during the pumping cycle: (i) The spectral characteristic of the ATP-induced dye response essentially agrees with the predictions for an electrochromic shift of the absorption peak. (ii) Adsorption of lipophilic anions to Na, K-ATPase membranes leads to an increase, adsorption of lipophilic cations to the decrease of dye fluorescence. These ions are known to bind to the hydrophobic interior of the membrane and to change the electric field strength in the boundary layer close to the interface. (iii) The fluorescence change that is normally observed upon phosphorylation by ATP is abolished at high concentrations of lipophilic ions. Lipophilic ions are thought to redistribute between the adsorption sites and water and to neutralize in this way the change of field strength caused by ion translocation in the pump protein. (iv) Changes of the fluorescence of RH 421 correlate with known electrogenic transitions in the pumping cycle, whereas transitions that are known to be electrically silent do not lead to fluorescence changes. The information obtained from experiments with amphiphilic styryl dyes is complementary to the results of electrophysiological investigations in which pump currents are measured as a function of transmembrane voltage. In particular, electrochromic dyes can be used for studying electrogenic processes in microsomal membrane preparations which are not amenable to electrophysiological techniques.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870529

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6

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Charge translocation by the Na,K-pump: II. Ion binding and release at the extracellular face (1991)

Stürmer, W. ; Bühler, R. ; Apell, H. -J. ; [et al.]

Springer

The journal of membrane biology 121 (1991), S. 163-176

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ISSN: 1432-1424

Keywords: Na,K-ATPase ; ion pumps ; electrogenic transport ; potentiometric dyes

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary In the first part of the paper, evidence has been presented that electrochromic styryl dyes, such as RH 421, incorporate into Na, K-ATPase membranes isolated from mammalian kidney and respond to changes of local electric field strength. In this second part of the paper, fluorescence studies with RH-421-labeled membranes are described, which were carried out to obtain information on the nature of charge-translocating reaction steps in the pumping cycle. Experiments with normal and chymotrypsin-modified membranes show that phosphorylation by ATP and occlusion of Na+ are electroneutral steps, and that release of Na+ from the occluded state to the extracellular side is associated with translocation of charge. Fluorescence signals observed in the presence of K+ indicate that binding and occlusion of K+ at the extracellular face of the pump is another major electrogenic reaction step. The finding that the fluorescence signals are insensitive to changes of ionic strength leads to the conclusion that the binding pocket accommodating Na+ or K+ is buried in the membrane dielectric. This corresponds to the notion that the binding sites are connected with the extracellular medium by a narrow access channel (“ion well”). This notion is further supported by experiments with lipophilic ions, such as tetraphenylphosphonium (TPP+) or tetraphenylborate (TPB−), which are known to bind to lipid bilayers and to change the electrostatic potential inside the membrane. Addition of TPP+ leads to a decrease of binding affinity for Na+ and K+, which is thought to result from the TPP−-induced change of electric field strength in the access channel.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870530

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7

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Fast charge translocations associated with partial reactions of the Na,K-pump: II. Microscopic analysis of transient currents (1987)

Apell, H. J. ; Borlinghaus, R. ; Läuger, P.

Springer

The journal of membrane biology 97 (1987), S. 179-191

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ISSN: 1432-1424

Keywords: Na,K-ATPase ; ion pumps ; electrogenic transport ; Albers-Post cycle ; partial reactions

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Nonstationary pump currents which have been observed in K+-free Na+ media after activation of the Na,K-ATPase by an ATP-concentration jump (see the preceding paper) are analyzed on the basis of microscopic reaction models. It is shown that the behavior of the current signal at short times is governed by electrically silent reactions preceding phosphorylation of the protein; accordingly, the main information on charge-translocating processes is contained in the declining phase of the pump current. The experimental results support the Albers-Post reaction scheme of the Na,K-pump, in which the translocation of Na+ precedes translocation of K+. The transient pump current is represented as the sum of contributions of the individual transitions in the reaction cycle. Each term in the sum is the product of a net transition rate times a “dielectric coefficient” describing the amount of charge translocated in a given reaction step. Charge translocation may result from the motion of ion-binding sites in the course of conformational changes, as well as from movement of ions in access channels connecting the binding sites to the aqueous media. A likely interpretation of the observed nonstationary currents consists in the assumption that the principal electrogenic step is the E1-P/P-E2 conformational transition of the protein, followed by a release of Na+ to the extracellular side. This conclusion is supported by kinetic data from the literature, as well as on the finding that chymotrypsin treatment which is known to block the E1-P/P-E2 transition abolishes the current transient. By numerical simulation of the Albers-Post reaction cycle, the proposed mechanism of charge translocation has been shown to reproduce the experimentally observed time behavior of pump currents.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869221

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8

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Microscopic description of voltage effects on ion-driven cotransport systems (1986)

Läuger, P. ; Jauch, P.

Springer

The journal of membrane biology 91 (1986), S. 275-284

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ISSN: 1432-1424

Keywords: cotransport systems ; electrogenic transport ; voltage dependence ; charge movement ; current-voltage characteristic

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary A microscopic model for the analysis of voltage effects on ion-driven cotransport systems is described. The model is based on the notion that the voltage dependence of a given rate constant is directly related to the amount of charge which is translocated in the corresponding reaction step. Charge translocation may result from the movement of an ion along the transport pathway, from the displacement of charged ligand groups of the ion-binding site, or from reorientation of polar residues of the protein in the course of a conformational transition. The voltage dependence of overall transport rate is described by a set of dimensionless coefficients reflecting the dielectric distances over which charge is displaced in the elementary reaction steps. The dielectric coefficients may be evaluated from the shape of the experimental flux-voltage curve if sufficient information on the rate constants of the reaction cycle is available. Examples of flux-voltage curves which are obtained by numerical simulation of the transport model are given for a number of limiting cases.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01868820

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9

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Fast charge translocations associated with partial reactions of the Na,K-pump: I. Current and voltage transients after photochemical release of ATP (1987)

Borlinghaus, R. ; Apell, H. J. ; Läuger, P.

Springer

The journal of membrane biology 97 (1987), S. 161-178

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ISSN: 1432-1424

Keywords: Na,K-ATPase ; ion pumps ; electrogenic transport ; concentration jump ; “caged” ATP

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Nonstationary electric currents are described which are generated by the Na,K-pump. Flat membrane sheets 0.2–1 μm in diameter containing a high density of oriented N,K-ATPase molecules are bound to a planar lipid bilayer acting as a capacitive electrode. In the aqueous phase adjacent to the bound membrane sheets, ATP is released within milliseconds from an inactive, photolabile precursor (“caged” ATP) by an intense flash of light. After the ATP-concentration jump, transient current and voltage signals can be recorded in the external circuit corresponding to a translocation of positive charge across the pump protein from the cytoplasmic to the extracellular side. These electrical signals which can be suppressed by inhibitors of the Na,K-ATPase require the presence of Na+ but not of K+ in the aqueous medium. The intrinsic pump currentI p (t) can be evaluated from the recorded current signal, using estimated values of the circuit parameters of the compound membrane system.I p (t) exhibits a biphasic behavior with a fast rising period, followed by a slower decline towards a small quasistationary current. The time constant of the rising phase ofI p (t) is found to depend on the rate of photochemical ATP release. Further information on the microscopic orgin of the current transient can be obtained by double-flash experiments and by chymotrypsin modification of the protein. These and other experiments indicate that the observed charge-translocation is associated with early events in the normal transport cycle. After activation by ATP, the pump goes through the first steps of the cycle and then enters a long-lived state from which return to the initial state is slow.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869220

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10

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1,2,2,3-Tetramethyl-cyclopentan-carbinol-1 und seine Derivate (1920)

Rupe, H. ; Läuger, P.

New York, NY : Wiley-Blackwell

Helvetica Chimica Acta 3 (1920), S. 272-298

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ISSN: 0018-019X

Keywords: Chemistry ; Organic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/hlca.19200030127

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