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1

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Chloride-dependence of the potency of inhibitors of the neuronal noradrenaline carrier in the rat vas deferens (1989)

Ungell, Anna-Lena ; Oberleithner, H. ; Graefe, K. -H.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 339 (1989), S. 65-70

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ISSN: 1432-1912

Keywords: Cl−-dependence ; Neuronal uptake ; Inhibition of neuronal uptake ; Desipramine ; Cocaine

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary (1) Vasa deferentia obtained from reserpine-pretreated rats were exposed to 0.15 μmol 1−1 3H-(−)noradrenaline (with monoamine oxidase and catechol-O-methyltransferase being inhibited) and initial rates of the neuronal 3H-noradrenaline uptake as well as IC50 values for inhibition of uptake by desipramine, cocaine or (−)metaraminol determined at various external Cl− concentrations (0–145 mmol 1−1) and a fixed high Na+ concentration (145 mmoll−1). (2) When the Cl− concentration in the medium was decreased neuronal uptake fell. As far as Cl− concentrations ranging from 10 to 145 mmol 1−1 are concerned, the dependence of uptake on Cl− obeyed Michaelis-Menten kinetics with an apparent K m and V max of 6.2 mmol 1−1 and 116 pmol g−1 min−1, respectively. At Cl− concentrations below 10 mmol l−1, uptake was higher than expected from the values of K m and V max, and even in the nominal absence of Cl− from the medium a remainder of neuronal uptake was still detectable. Evidence is presented to show that, on incubation at Cl− concentrations below 10 mmol l−1, intracelluar Cl− leaks out, so that the actual Cl− concentrations in the extracellular fluid are probably higher than in the medium. (3) The potencies of desipramine and cocaine for inhibition of neuronal uptake were markedly dependent on the Cl− concentration in the medium, but the type of Cl− dependence differed. While the IC50 for desipramine decreased, that for cocaine increased with increasing Cl− concentration (2–145 mmol l−1). The value of IC50 for cocaine and that of 1/IC50 for desipramine approached saturation (with an apparent Hill coefficient of about unity) when plotted against the Cl− concentration; half-maximum values were observed at Cl− concentrations of 9 and 24 mmol l−1, respectively. (4) (−)Metaraminol (an alternative substrate of the noradrenaline carrier) remained equally potent in inhibiting neuronal uptake when the Cl− concentration was decreased from 145 to 2 mmol l−1. However, when Cl− was omitted from the medium, the IC50 for (−)metaraminol increased. Hence, the C−-dependence of the potency of (−)metaraminol appears to be restricted to very low extracellular Cl− concentrations. (5) It is concluded that not only the neuronal uptake process itself, but also its inhibition by desipramine and cocaine are highly Cl−-dependent. Since desipramine and cocaine differ with respect to the type of Cl−-dependence of their inhibitory potency, they are likely to act by combining with distinctly different states of the noradrenaline carrier. It is suggested that desipramine interacts with the carrier loaded with Cl− while cocaine is capable of interacting with its Cl−-free state.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00165128

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2

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The effect of phenylalanine on the electrical properties of proximal tubule cells in the frog kidney (1985)

Messner, G. ; Oberleithner, H. ; Lang, F.

Springer

Pflügers Archiv 404 (1985), S. 138-144

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ISSN: 1432-2013

Keywords: Proximal tubule ; Cell membrane potential ; Potassium conductance ; Cell membrane resistance ; Sodium coupled transport ; Phenylalanine ; Frog kidney

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The present study was designed to elucidate the effects of sodium-coupled transport on the electrical properties of proximal tubule cells in the isolated perfused frog kidney. Cable analysis techniques have been employed to determine the resistance of the luminal and peritubular cell membranes in parallel (R m) and the apparent ratio of the luminal over the peritubular cell membrane resistance (VDR). Furthermore, the sensitivity of the potential difference across the peritubular cell membrane (PDpt) to 6-fold increases of peritubular potassium concentration (ΔPDk) was taken as a measure of the relative potassium conductance of this membrane. In the absence of luminal phenylalanine, PDpt amounts to −60±1 mV (n=90),R m to 36±3 kΩ cm (n=22), VDR to 1.81±0.14 (n=20), and ΔPDk to 15.0±0.9 mV (n=25). The application of 10 mmol/l phenylalanine replacing 10 mmol/l raffinose leads to a rapid (within 30 s) depolarisation of PDpt to 50±5% of its control value and to a delayed (within 12 min) recovery to 95±5% of control. The rapid depolarisation is associated with a decline ofR m and VDR, indicating a decrease mainly of the luminal cell membrane resistance. During recovery of PDpt there is a parallel increase of VDR and a further decline ofR m pointing to a decline of the basolateral cell membrane resistance. ΔPDk is decreased during rapid depolarisation but increases again during the recovery phase. Thus, phenylalanine initially decreases but then increases above control the apparent potassium conductance. Removal of phenylalanine leads to a transient hyperpolarisation and increased apparent potassium conductance. If a cell is depolarised by current injection into a neighbouring cell, a similar decrease of ΔPDk is observed which shows also a similar recovery (partial repolarisation) despite continued injection of constant current. The data point to a potential-dependent peritubular K+-conductance (of the inwardly rectifying type) and to a regulatory increase within some ten minutes, when the cell is depolarised either by sodium entry across the luminal cell membrane or by current injection into a neighbouring cell.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00585409

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3

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Molecular weights of individual proteins correlate with molecular volumes measured by atomic force microscopy (1998)

Schneider, S. W. ; Lärmer, J. ; Henderson, R. M. ; [et al.]

Springer

Pflügers Archiv 435 (1998), S. 362-367

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ISSN: 1432-2013

Keywords: Key words Atomic force microscopy ; Protein molecule imaging ; Molecular volume

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Proteins are usually identified by their molecular weights, and atomic force microscopy (AFM) produces images of single molecules in three dimensions. We have used AFM to measure the molecular volumes of a number of proteins and to determine any correlation with their known molecular weights. We used native proteins (the TATA-binding protein Tbp, a fusion protein of glutathione-S-transferase and the renal potassium channel protein ROMK1, the immunoglobulins IgG and IgM, and the vasodilator-stimulated phosphoprotein VASP) and also denatured proteins (the red blood cell proteins actin, Band 3 and spectrin separated by SDS-gel electrophoresis and isolated from nitrocellulose). Proteins studied had molecular weights between 38 and 900 kDa and were imaged attached to a mica substrate. We found that molecular weight increased with an increasing molecular volume (correlation coefficient = 0.994). Thus, the molecular volumes measured with AFM compare well with the calculated volumes of the individual proteins. The degree of resolution achieved (lateral 5 nm, vertical 0.2 nm) depended upon the firm attachment of the proteins to the mica. This was aided by coating the mica with suitable detergent and by imaging using the AFM tapping mode which minimizes any lateral force applied to the protein. We conclude that single (native and denatured) proteins can be imaged by AFM in three dimensions and identified by their specific molecular volumes. This new approach permits detection of the number of monomers of a homomultimeric protein and study of single proteins under physiological conditions at the molecular level.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050524

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4

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Imaging excised apical plasma membrane patches of MDCK cells in physiological conditions with atomic force microscopy (1997)

Lärmer, J. ; Schneider, S. W. ; Danker, T. ; [et al.]

Springer

Pflügers Archiv 434 (1997), S. 254-260

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ISSN: 1432-2013

Keywords: Key words Atomic force microscopy ; Patch clamp ; MDCK cells ; Plasma membrane ; Membrane protein

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We combined the patch-clamp technique with atomic force microscopy (AFM) to visualize plasma membrane proteins protruding from the extracellular surface of cultured kidney cells (MDCK cells). To achieve molecular resolution, patches were mechanically isolated from whole MDCK cells by applying the patch-clamp technique. The excised inside-out patches were transferred on freshly cleaved mica and imaged with the AFM in air and under physiological conditions (i.e. in fluid). Thus, the resolution could be increased considerably (lateral and vertical resolutions 5 and 0.1 nm, respectively) as compared to experiments on intact cells, where plasma membrane proteins were hardly detectable. The apical plasma membrane surface of the MDCK cells showed multiple protrusions which could be identified as membrane proteins through the use of pronase. These proteins had a density of about 90 per μm², with heights between 1 and 9 nm, and lateral dimensions of 20–60 nm. Their frequency distribution showed a peak value of 3 nm for the protein height. A simplified assumption – modelling plasma membrane proteins as spherical structures protruding from the lipid bilayer – allowed an estimation of the possible molecular weights of these proteins. They range from 50 kDa to 710 kDa with a peak value of 125 kDa. We conclude that AFM can be used to study the molecular structures of membranes which were isolated with the patch-clamp technique. Individual membrane proteins and protein clusters, and their arrangement and distribution in a native plasma membrane can be visualized under physiological conditions, which is a first step for their identification.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050393

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5

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Aldosterone activates the nuclear pore transporter in cultured kidney cells imaged with atomic force microscopy (1996)

Folprecht, Gunnar ; Schneider, Stefan ; Oberleithner, H.

Springer

Pflügers Archiv 432 (1996), S. 831-838

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ISSN: 1432-2013

Keywords: Key words Aldosterone ; Nuclear pore complexes ; Nuclear pore transporter ; Atomic force microscopy

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Nuclear pore complexes (NPC), located in the nuclear envelope, functionally connect the cell nucleus with the cytoplasm and serve as a crucial pathway for macromolecule exchange. A Madin-Darby canine kidney (MDCK) clone that resembles principal cells of the collecting duct was shown recently to respond to sustained aldosterone exposure with a significant increase in the NPC number per nucleus. The present study elucidates the molecular nature of the NPC pathway and its regulation by aldosterone applying atomic force microscopy. We imaged individual NPC in situ and searched for a putative so-called transporter in the NPC centre. In aldosterone-depleted cells we found numerous macromolecules docked to individual NPC waiting for translocation into the nucleoplasm (standby mode=inactive pore). In contrast, in aldosterone-treated cells NPC were frequently found free of macromolecules, indicating that the translocation process kept pace with docking under hormone-stimulated conditions (transport mode=active pore). In the NPC centre we detected a ring-like structure with a central invagination. We assume that the ring is the putative transporter and that the invagination is the channel entrance used for translocation of macromolecules. Transporters were found in open and closed configurations. In conclusion, the results provide evidence for the existence of a nuclear transporter as part of the translocation machinery of an individual NPC. Aldosterone increases the activity of the nuclear transporter and thus facilitates steroid-mediated gene expression.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050205

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6

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Atomic force microscopy visualizes ATP-dependent dissociation of multimeric TATA-binding protein before translocation into the cell nucleus (1996)

Oberleithner, H. ; Schneider, Stefan ; Bustamante, Jose-Omar

Springer

Pflügers Archiv 432 (1996), S. 839-844

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ISSN: 1432-2013

Keywords: Key words TATA-binding protein ; Atomic force microscopy ; Nuclear transport ; ATP

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The TATA-binding protein (TBP) is a universal transcription factor which plays an essential role in eukaryotic gene expression. As a karyophilic molecule, this cytosolic protein reaches its DNA-binding site through the transport channel of the nuclear pore complex. As occurs with other major cellular proteins, TBP forms multimers in solution, which is a limiting factor for nuclear translocation. While studying the nuclear translocation of TBP, we detected ATP-dependent multimerization of TBP with atomic force microscopy. In physiological solutions containing ATP, 14-molecule multimers dissociated into four-molecule multimers with a half-maximum dissociation constant of 10 μM. Electrophysiological experiments using isolated cell nuclei of cultured kidney cells revealed that TBP translocates into the cell nucleus only in the presence of ATP. When ATP was replaced with its slowly hydrolysing analogue, ATP[γ-S] [i.e. adenosine 5′-o-(3-thiotriphosphate)], the aggregates remained intact and nuclear translocation was not possible. Taken together, our investigations suggest that TBP exhibits ATPase activity similar to that observed in relation to molecular chaperons. This activity secures physiological translocation of the transcription factor into the nucleus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050206

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7

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Cell membrane potential: a signal to control intracellular pH and transepithelial hydrogen ion secretion in frog kidney (1987)

Wang, W. ; Dietl, P. ; Silbernagl, S. ; [et al.]

Springer

Pflügers Archiv 409 (1987), S. 289-295

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ISSN: 1432-2013

Keywords: Diluting segment ; Cell fusion ; Intracellular pH ; Cell membrane potential ; Frog kidney

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The dependence of intracellular pH (pHi) and transepithelial H+ secretion on the cell membrane potential (V m) was tested applying pH-sensitive and conventional microelectrodes in giant cells fused from single epithelial cells of the diluting segment and in intact tubules of the frog kidney. An increase of extracellular K+ concentration from 3 to 15 mmol/l decreasedV m from −49±4 to −29±1 mV while pHi increased from 7.44±0.04 to 7.61±0.06. Addition of 1 mmol/l Ba2+ depolarizedV m from −45±3 to −32±2 mV, paralleled by an increase of pHi from 7.46±0.04 to 7.58±0.03. Application of 0.05 mmol/l furosemide hyperpolarizedV m from −48±3 to −53±3 mV and decreased pHi from 7.47±0.05 to 7.42±0.05. In the intact diluting segment of the isolated-perfused frog kidney an increase of peritubular K+ concentration from 3 to 15 mmol/l increased the luminal pH from 7.23±0.08 to 7.41±0.08. Addition of Ba2+ to the peritubular perfusate also increased luminal pH from 7.35±0.07 to 7.46±0.07. Addition of furosemide decreased luminal pH from 7.32±0.03 to 7.24±0.05. We conclude: cell depolarization reduces the driving force for the rheogenic HCO 3 − exit step across the basolateral cell membrane. HCO 3 − accumulates in the cytoplasm and pHi increases. An alkaline pHi inactivates the luminal Na+/H+ exchanger. This diminishes transepithelial H+ secretion. Cell hyperpolarization leads to the opposite phenomenon. Thus, pHi serves as signal transducer between cell voltage and Na+/H+ exchange.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00583478

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8

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Ouabain decreases apparent potassium-conductance in proximal tubules of the amphibian kidney (1985)

Messner, G. ; Wang, W. ; Paulmichl, M. ; [et al.]

Springer

Pflügers Archiv 404 (1985), S. 131-137

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ISSN: 1432-2013

Keywords: Ouabain ; Cell membrane potential ; Cell membrane resistance ; Potassium conductance ; Bicarbonate conductance ; Proximal tubule ; Amphibian kidney

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract According to a previous study from this laboratory, the electrochemical gradient for potassium across the peritubular cell membrane of proximal tubules in the isolated perfused frog kidney increases following the application of ouabain. In order to test, if this phenomenon were due to a decrease of potassium conductance, the effects of ouabain on cell membrane resistances and the sensitivity of the peritubular cell membrane potential difference (PDpt) to step changes of peritubular potassium and bicarbonate concentration were studied. In the absence of ouabain, PDpt averaged −60±3 mV (n=25). A step increase of peritubular potassium concentration from 3 to 18 mmol/l (pH 8.07) depolarises PDpt (ΔPDk) by +24±2 mV (n=8). An increase of bicarbonate from 20 to 40 mmol/l (pH 8.07) hyperpolarises PDpt (ΔPDb) by −2.8±0.4 mV (n=9). The resistance of the luminal and peritubular cell membranes in parallel (R m) amounts to 45±9 kΩ cm (tubule length) (n=4) and the voltage divider ratio (VDR) to 1.4±0.2 (n=7). The resistance of the cellular cable (cellular core,R c) approaches 131±37 MΩ/cm (n=4). Peritubular application of 0.1 mmol/l ouabain leads to a gradual decline of PDpt (t 1/2 approx. 30 min), to an increase ofR m, a decrease of ΔPDk and an increase of ΔPDb. VDR andR c are not changed significantly. The data point to a functional link between the sodium/potassium ATPase and the potassium conductance of the peritubular cell membrane.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00585408

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Relationship between luminal Na+/H+ exchange and luminal K+ conductance in diluting segment of frog kidney (1985)

Oberleithner, H. ; Dietl, P. ; Münich, G. ; [et al.]

Springer

Pflügers Archiv 405 (1985), S. S110

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ISSN: 1432-2013

Keywords: Diluting segment ; Furosemide ; K+-conductance ; Amiloride

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Experiments were performed in the isolated perfused kidney of K+ adaptedRana pipiens to investigate the relationship between luminal K+ conductance and H+ transport in cells of the diluting segment. Inhibition of luminal Na+/H+ exchange by amiloride or by omission of luminal Na+ blocked luminal K+ conductance. Acidification of the kidney perfusate by elevation of pCO2 also reduced luminal K+ conductance. This effect could be prevented by furosemide. Since the steepest transcellular Na+ potential difference, directed from the lumen into the cell, is found when luminal Na+/Cl−/K+ cotransport is inhibited by furosemide, we conclude that luminal Na+/H+ exchange is most efficient at these conditions and thus could attenuate intracellular acidification.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00581790

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Evidence for Na+ dependent rheogenic HCO 3 − transport in fused cells of frog distal tubules (1987)

Wang, W. ; Dietl, P. ; Oberleithner, H.

Springer

Pflügers Archiv 408 (1987), S. 291-299

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ISSN: 1432-2013

Keywords: Diluting segment ; Cell fusion ; Na+/HCO 3 − ; Cotransport ; SITS ; Acetazolamide ; Frog kidney

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The mechanism of HCO 3 − transport was studied applying microelectrodes in “giant” cells fused from single epithelial cells of the diluting segment of frog kidney. A sudeen increase of extracellular HCO 3 − concentration from 10 to 20 mmol/l at constant pH hyperpolarized the cell membrane potential of the fused cell. This cell-voltage response was totally abolished by 10−3 mol/l SITS and significantly reduced by 10−4 mol/l acetazolamide or by omission of Na+ from the extracellular perfusate. Removal of Na+ from the perfusate caused a transient depolarization. Reapplication of Na+ induced a transient hyperpolarization. 10−3 mol/l SITS abolished the cell-voltage response to removal and reapplication of Na+. In the intact diluting segment of the isolated perfused frog kidney peritubular perfusion of 10−4 mol/l acetazolamide reduced the limiting transepithelial electrochemical gradient for H+ significantly from 30±4 mV to 14±3 mV. The results suggest: (i) In the diluting segment of the frog kidney a Na+-dependent rheogenic HCO 3 − transport system exists across the peritubular cell membrane. (ii) This rheogenic peritubular Na+/HCO 3 − cotransporter cooperates with a Na+/H+ exchanger in the luminal membrane, thus driving HCO 3 − reabsorption. (iii) Reabsorption of HCO 3 − and secretion of H+ depend upon the presence of carbonic anhydrase.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02181472

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