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1

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Regulation and localization of organic osmolytes in mammalian kidney (1990)

Guder, W. G. ; Beck, F. X. ; Schmolke, M.

Springer

Journal of molecular medicine 68 (1990), S. 1091-1095

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ISSN: 1432-1440

Keywords: Organic osmolytes ; Rat kidney ; Diabetes insipidus ; Diabetes mellitus ; Hormone treatment

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Four organic small molecules belonging to the chemical groups of trimethylamines (betaine and glycerophosphorylcholine) and polyols (sorbitol and inositol) have been shown to act as organic osmolytes in the kidney. When measured along the corticopapillary axis, each exhibits a specific distribution pattern, indicating a specific localization and function. Studying their behaviour under vasopressin treatment in diabetes insipidus rats and after insulin treatment in diabetes mellitus rats confirmed this conclusion: AVP led to a steady increase of sorbitol and glycerophosphorylcholine over 7 days with no effect on inositol levels. Insulin treatment of diabetic rats, on the other hand, decreased sorbitol with a concomitant increase in glycerophosphorylcholine, again without any effect on tubular inositol concentrations. From this and in vitro studies it can be concluded that both hormones act by indirect mechanisms which alter interstitial osmolality. This in turn leads to a change in tubular osmolyte synthesis, uptake and release rates. In addition, the concentrations of the respective precursors glucose and choline influence the formation rates of sorbitol and betaine.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01798058

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2

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Cellular osmoregulation in the renal papilla (1988)

Beck, F. X. ; Dörge, A. ; Thurau, K.

Springer

Journal of molecular medicine 66 (1988), S. 843-848

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ISSN: 1432-1440

Keywords: Renal papillary cells ; Cell electrolytes ; Osmoadaptation ; Organic osmolytes ; Electron microprobe analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The cells of the renal papilla are subject to extreme variations in extracellular tonicity. To obtain more insight into the mechanisms whereby these cells adapt osmotically to these unique environmental conditions, elements were measured in individual cells of the rat renal papilla in antidiuresis and after prolonged furosemide administration. In antidiuresis cell sodium, chloride and potassium concentrations did not differ fundamentally from those observed in tubule cells exposed to isotonic surroundings such as in proximal tubule cells. The marked fall in extracellular electrolyte concentrations induced by furosemide was paralleled by a far less pronounced decline in intracellular sodium, chloride and potassium concentrations. These data indicate that papillary cells achieve osmoadaptation to widely differing extracellular tonicities mainly by varying the intracellular concentrations of osmotically active substances other than inorganic electrolytes. Since high concentrations of organic osmolytes (sorbitol, inositol, glycerophosphorylcholine and other trimethylamines) have been detected in the papilla and since the tissue contents of these compounds have been shown to vary in parallel with urine osmolality, it may be concluded that metabolically inert, organic osmolytes play a dominant role in the osmoregulation of renal papillary cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01728945

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3

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A method of preparing single renal tubules for electron microprobe analysis (1983)

Györy, A. Z. ; Beck, F. X. ; Thurau, K.

Springer

Pflügers Archiv 399 (1983), S. 241-242

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ISSN: 1432-2013

Keywords: Single renal tubules ; Electron microprobe analysis ; Cellular concentrations

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract A method is described whereby single renal tubules, incubated in varying incubation media can be captured and prepared for electron microprobe analysis for intracellular sodium, potassium, chloride, phosphorus, magnesium amongst others.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00656723

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4

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Intracellular electrolyte concentrations in rat sympathetic neurones measured with an electron microprobe (1984)

Galvan, M. ; Dörge, A. ; Beck, F. ; [et al.]

Springer

Pflügers Archiv 400 (1984), S. 274-279

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ISSN: 1432-2013

Keywords: Electron microprobe analysis ; Sympathetic neurones ; Cellular electrolyte concentrations ; Carbachol ; Ouabain

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Intracellular element concentrations were measured in rat sympathetic neurones using energy dispersive electron microprobe analysis. The resting intracellular concentrations of sodium potassium and chloride measured in ganglia maintained for about 90 min in vitro at 25° C were 3, 155 and 25 mmol/kg total tissue wet weight respectively. Recalculated in mmol/l cell water, these values are 5, 196 and 32 respectively. There were no significant differences between the nuclear and cytoplasmic values of these ions. Incubation in either carbachol (108 μmol/l, 4 min) or ouabain (1 mmol/l, 60 min) significantly increased the intracellular sodium and decreased the intracellular potassium concentrations. Neither substance materially altered the intracellular chloride concentration. The data obtained are compared and contrasted to those obtained in mammalian sympathetic neurones using chemical analysis and ion-sensitive microelectrodes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00581559

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5

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Cellular response to osmotic stress in the renal medulla (1998)

Beck, F.-X. ; Burger-Kentischer, Anke ; Müller, Eva

Springer

Pflügers Archiv 436 (1998), S. 814-827

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ISSN: 1432-2013

Keywords: Key words Antidiuresis ; Diuresis ; Heat shock proteins ; Ionic strength ; Organic osmolytes ; Osmotic stress ; Renal medulla

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Cells of the renal medulla, which are exposed under normal physiological conditions to widely fluctuating extracellular solute concentrations, respond to hypertonic stress by accumulating the organic osmolytes glycerophosphorylcholine (GPC), betaine, myo-inositol, sorbitol and free amino acids. Increased intracellular contents of these osmolytes are achieved by a combination of increased uptake (myo-inositol and betaine) and synthesis (sorbitol, possibly GPC), decreased degradation (GPC) and reduced osmolyte release. In the medulla of the concentrating kidney, accumulation of organic osmolytes, which do not perturb cell function even at high concentrations, allows the maintenance of ”normal” intracellular concentrations of inorganic electrolytes. Adaptation to decreasing extracellular solute concentrations, e.g. diuresis, is achieved primarily by activation of pathways allowing the efflux of organic osmolytes, and secondarily by inactivation of production (sorbitol) and uptake (betaine, myo-inositol) and stimulation of degradation (GPC). Apart from modulation of the osmolyte content, osmolality-dependent reorganization of the cytoskeleton and expression of specific stress proteins (heat shock proteins) may be further, as yet poorly characterized, components of the regulatory systems involved in the adaptation of medullary cells to osmotic stress.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050710

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6

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Intracellular elemental concentrations in renal tubular cells. An electron microprobe analysis (1979)

Thurau, K. ; Dörge, A. ; Mason, J. ; [et al.]

Springer

Journal of molecular medicine 57 (1979), S. 993-999

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ISSN: 1432-1440

Keywords: Electron microprobe analysis ; Intracellular electrolytes ; Kidney ; Ischaemia ; Elektronenstrahl-Mikroanalyse ; Intrazelluläre Elektrolyte ; Niere ; Ischämie

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In order to be able to examine the processes involved in transepithelial transport in tissues, which are not composed of a single cell type, methods are required, which permit analysis at a cellular level. The technique of electron microprobe analysis permits the intracellular concentrations of many elements to be determined simultaneously in various portions of the cell. The application of this method to renal cortical tissue has shown that the best estimates of the cytoplasmic concentrations are to be obtained in regions close to the nucleus, farthest from the basolateral infoldings and microvilli, which separate the intracellular environment from the extracellular space. The nuclear concentrations of Na and K do not differ from those in the surrounding cytoplasm, although those of P and C1 are somewhat higher in cytoplasm. The intracellular element concentrations in the different cell types vary somewhat, proximal tubular cells contain higher concentrations of Na and C1 and lower ones of P than distal tubular cells. Following ischaemia, a manoeuvre know to result in a disturbance of intracellular electrolytes, Na was observed to rise and K to fall only in the non-surface cells of kidneys exposed to the air, but in all cells, if the kidneys were kept air-free in an atmosphere of N2. The proximal and distal tubular cells showed a variable resistance to ischaemia, the distal tubular cells being much more resistant. Despite the severity of the electrolyte disturbance following ischaemia, the intracellular composition was completely restored one hour after re-introducing renal blood flow.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01479984

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7

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Pretreatment with hypertonic NaCl protects MDCK cells against high urea concentrations (1998)

Neuhofer, Wolfgang ; Müller, E. ; Burger-Kentischer, Anke ; [et al.]

Springer

Pflügers Archiv 435 (1998), S. 407-414

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ISSN: 1432-2013

Keywords: Key words MDCK cells ; Hypertonic stress ; NaCl ; Urea ; Organic osmolytes ; Heat shock proteins ; Cell viability

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In antidiuresis, the cells of the renal medulla are exposed to high extracellular concentrations of NaCl and urea. Since urea equilibrates with the intracellular compartment and is known to perturb intracellular macromolecules, high urea concentrations may well disturb the structure and function of cell proteins. Two types of organic substances are believed to counteract the adverse effects of high intracellular urea concentrations: specific organic osmolytes of the trimethylamine family [betaine and glycerophosphorylcholine (GPC)], which accumulate in renal medullary cells during prolonged periods of antidiuresis and cytoprotective heat shock proteins (HSPs), the tissue content of two of which (HSPs 27 and 72) is much higher in the inner medulla than in the iso-osmotic renal cortex. To evaluate the contribution of trimethylamines and HSPs to cytoprotection in the presence of high urea concentrations, the effect of HSP induction and osmolyte accumulation prior to exposure to high urea concentrations was examined in Madin-Darby canine kidney (MDCK) cells. Accumulation of organic osmolytes and synthesis of HSP27 and HSP72 was initiated by hypertonic stress (increasing the osmolality of the medium from 290 to 600 mosmol/kg H2O by NaCl addition). Control, non-conditioned cells remained in the isotonic medium for the same period. Upon subsequent exposure to an additional 600 mM urea in the medium for 24 h, 90% of the osmotically conditioned cells but only 15% of non-conditioned cells survived. The HSP72 and trimethylamine contents of the NaCl-conditioned MDCK cells, but not HSP27 content, correlated positively with cell survival. To separate the effects of organic osmolytes and HSP72, chronically NaCl-adapted MDCK cells were returned to isotonic medium for 1 or 2 days, so depleting them of trimethylamine osmolytes. HSP72, with its longer half life, remained elevated. Subsequent exposure of these cells to 600 mM urea in the medium resulted in about 80% survival. These results suggest that in MDCK cells and probably in the renal medulla, HSP72 and perhaps additional protective factors contribute substantially to the resistance against high urea concentrations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050531

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8

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Cellular site of active K absorption in the guinea-pig distal colonic epithelium (1998)

Dörge, A. ; Beck, F. X. ; Rechkemmer, G.

Springer

Pflügers Archiv 436 (1998), S. 280-288

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ISSN: 1432-2013

Keywords: Key words Unidirectional Rb fluxes ; Electron microprobe analysis ; Luminal Rb uptake ; Cellular element concentrations ; Ouabain ; Ethoxzolamide ; Amiloride

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The mammalian distal colon, which is composed of different cell types, actively transports Na, K and Cl in absorptive and K and Cl in secretory directions. To further characterize the K absorption process and to identify the cells involved in K absorption, unidirectional Rb fluxes and luminal Rb uptake into different epithelial cell types were determined in isolated guinea-pig distal colon. Net Rb absorption (1.5–2.5 µmol·h–1·cm–2) was not influenced by inhibition of Na transport with amiloride or by incubating both sides of the epithelium with Na-free solutions, but was almost completely abolished by luminal ouabain, ethoxzolamide or by incubating both sides of the epithelium with Cl-free solutions. Luminal Rb uptake, blockable by luminal ouabain, preferentially occurred in columnar surface and neck cells, to a lesser extent in surface goblet cells and to an insignificant degree in lower crypt cells. Employing a luminal Rb-Ringer (5.4 mM Rb) the Rb concentration increased within 10 min in columnar surface and neck, surface goblet and lower crypt cells to 70, 32 and about 10 mmol·kg–1 wet weight, respectively. The presence of 5.4 mM K in the luminal incubation solution reduced Rb uptake almost completely indicating a much higher acceptance of the luminal H-K-ATPase for K than for Rb. The increase in Na and decrease in K concentrations in surface and neck cells induced by luminal ouabain might indicate inhibition of the basolateral Na-K-ATPase or drastic enhancement of cellular Na uptake by the Na-H exchanger. Bilateral Na-free incubation did not alter Rb uptake, but bilateral Cl-free incubation drastically reduced it. Inhibition of net Rb absorption by ethoxzolamide and inhibition of both Rb absorption and Rb uptake by bilateral Cl-free incubation support the notion that cellular CO2 hydration is a necessary prerequisite for K absorption and that HCO3 leaves the cell via a Cl-HCO3 exchanger. Since ouabain-inhibitable transepithelial Rb flux and luminal Rb uptake rate by surface and neck cells were about the same, Rb(K) absorption seems to be accomplished mainly by columnar surface cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050633

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9

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Electron microprobe analysis of proximal tubule cellular Na, Cl and K element concentrations during acute mannitol-saline volume expansion in rats: evidence for inhibition of the Na pump (1985)

Györy, A. Z. ; Beck, F. ; Rick, R. ; [et al.]

Springer

Pflügers Archiv 403 (1985), S. 205-209

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ISSN: 1432-2013

Keywords: Electron microprobe analysis ; Volume expansion ; Intracellular electrolytes ; Renal tubular cells ; Natriuretic mechanisms

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract It has previously been shown that during mannitol-saline volume expansion (VE) Na transport was inhibited 50% by harvested proximal tubular fluid without a change in paracellular shunt pathway permeability to Na. To determine whether this inhibition was due to changes in cellular entry step or an effect on the pump itself, intracellular element concentrations were measured by electron microprobe X-ray ranalysis in proximal tubular cells of control (non-expanded, NE) and VE rats. Na i , Cl i and phosphorus i were increased (mean±S.E.) from 19.3±0.8 to 23.4±0.6, 15.8±0.4 to 21.3±0.4 and 124.3±2.6 to 138.0±1.8 mmol · kg−1 wet weight (P〈0.001) respectively while K i remained unchanged: 122.9±2.2 and 124.2±1.3 mmol · kg−1 wet weight. The increases in Na i and Cl i were in excess of cell shrinkage produced by the hyperosmolal peritubular environment while the unchanged K i in the face of cell shrinkage indicates and actual loss. It is concluded that mannitol-saline VE inhibits the Na pump producing a rise in Na i and a fall in K i .

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00584101

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10

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Effect of acute metabolic acidosis on transmembrane electrolyte gradients in individual renal tubule cells (1988)

Beck, F. -X. ; Schramm, M. ; Dörge, A. ; [et al.]

Springer

Pflügers Archiv 412 (1988), S. 427-433

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ISSN: 1432-2013

Keywords: Acute metabolic acidosis ; Renal distal electrolyte transport ; Renal cell electrolyte concentrations ; Individual distal tubule cells ; Transmembrane electrolyte concentration gradients ; Electron microprobe analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We studied the effect of acute metabolic acidosis on potassium, sodium and chloride gradients across the apical membrane of proximal and distal tubule cells by determining electrolyte concentrations in individual cells and in tubule fluid employing electron microprobe analysis. Cellular measurements were performed on freeze-dried cryosections of the renal cortex, analysis of tubule fluid electrolyte concentrations on freeze-dried microdroplets of micropuncture samples obtained from proximal and from early and late distal collection sites. Acidosis (NH4Cl i.v. and i.g.) induced a substantial rise in plasma potassium concentration without significant effects on cell potassium concentrations. Potassium concentrations along the surface distal tubule were also unaltered; thus the chemical driving force for potassium exit from cell to lumen was not affected by acidosis. In all but intercalated cells acidosis markedly increased cell phosphorus concentration and cell dry weight indicating cell shrinkage and thus diminution of cell potassium content. Because the increase in intracellular chloride concentration exceeded the increase in plasma chloride concentration, the chemical chloride gradient across the contraluminal membrane was markedly depressed by acidosis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01907563

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