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1

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Effect of ouabain on electrolyte concentrations in principal and intercalated cells of the isolated perfused cortical collecting duct (1989)

Sauer, Michael ; Dörge, Adolf ; Thurau, Klaus ; [et al.]

Springer

Pflügers Archiv 413 (1989), S. 651-655

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ISSN: 1432-2013

Keywords: Cortical collecting duct ; Isolated perfused tubules ; Principal cells ; Intercalated cells ; Cell electrolyte concentrations ; Ouabain ; Electron microprobe analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Sodium, phosphorus, chloride and potassium concentrations were measured by a new method in individual principal and intercalated cells in the cortical collecting duct in vitro. Electron microprobe analysis was applied to freezedried cryosections of the isolated perfused rabbit cortical collecting duct. Cell analyses were performed under control conditions and after addition of ouabain to the bath. Under control conditions similar sodium, potassium, chloride, and phosphorus concentration (means±SEM) were observed in principal (10.0±0.6, 126.5±2.7, 24.6±1.0, and 121.5±3.5 mmol/kg wet weight, respectively) and intercalated cells (9.0±0.9, 127.1±4.2, 27.4±1.8, and 118.7±4.9 mmol/kg wet weight, respectively). In principal cells ouabain (10 min) caused an increase in sodium and chloride concentrations by 104 and 13 mmol/kg wet weight, and a decrease in potassium and phosphorus concentrations by 106 and 32 mmol/kg wet weight. These changes in cell element concentrations can be ascribed to an exchange of intracellular potassium against extracellular sodium and to cell swelling due to influx of extracellular fluid. The effects of ouabain on intercalated cells were far less pronounced than on principal cells. This different susceptibility to ouabain of principal and intercalated cells can be ascribed to differences in active and passive transmembrane ion transport pathways.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00581816

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2

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Solute composition and heat shock proteins in rat renal medulla (1997)

Ohno, A. ; Müller, E. ; Fraek, Maria-Luisa ; [et al.]

Springer

Pflügers Archiv 434 (1997), S. 117-122

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ISSN: 1432-2013

Keywords: Key words Organic osmolytes ; Urea ; Intracellular electrolytes ; Heat shock proteins ; HSP25 ; HSP72 ; Osmoregulation ; Kidney

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The high content of heat shock proteins (HSPs) 25 and 72 in the hyperosmotic inner medulla of the concentrating kidney has been ascribed to the high NaCl and urea concentrations in this kidney zone. To assess the effects of variations in the composition of solutes in the renal medulla on the intrarenal distribution of HSPs, rats were fed either a high- or low-Na diet for 3 weeks. These diets result in greatly differing urine and inner medullary solute composition. Sodium dodecyl sulphate polyacrylamide gel electrophoresis and Western blot techniques were used to analyse HSP25 and HSP72 in the cortex, outer medulla and inner medulla. In addition, the amounts of organic osmolytes (sorbitol, myo-inositol, betaine and glycerophosphorylcholine) and urea in the tissue were determined by high-performance liquid chromatography. Intra- and extracellular electrolyte concentrations at the papillary tip were measured by electron microprobe analysis. In the high-Na group, urine osmolality was about 1000 mosmol/kg lower than in rats fed a low-Na diet, due to lower urea concentrations. The sum of urine sodium and potassium concentrations, however, did not differ between the two groups. Neither in the outer nor in the inner medulla was the sum of the concentrations of organic osmolytes affected by the dietary treatment. The sum of sodium, potassium and chloride concentrations did not differ between the two experimental groups, neither in the interstitial nor in the intracellular compartments. However, the urea content and the amounts of HSP25 and HSP72 were significantly lower in the inner medulla of the group of rats fed a high-Na diet. Our results suggest that urea participates in the regulation of the medullary levels of the HSPs and that both HSP25 and HSP72 are components of mechanisms protecting medullary cells against the deleterious effects of high urea concentrations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050371

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3

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Transcellular sodium transport and basolateral rubidium uptake in the isolated perfused cortical collecting duct (1993)

Flemmer, Andreas ; Dörge, Adolf ; Thurau, Klaus ; [et al.]

Springer

Pflügers Archiv 424 (1993), S. 250-254

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ISSN: 1432-2013

Keywords: Cortical collecting duct ; Cell Na+ concentration ; Cell Rb+ uptake ; Na+/K+-ATPase activity ; Principal cell ; Intercalated cell

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The relation between transcellular Na+ absorption, intracellular Na+ concentration and Na+/K+-ATPase activity (the last estimated by the rubidium uptake across the basolateral cell membrane) was examined in the different cell types of the rabbit cortical collecting duct (CCD). Experiments were performed on isolated perfused CCD in which Na+ absorption was varied by perfusing the tubule with solutions containing different Na+ concentrations (nominally Na+-free, 30 mM and 144 mM). Experiments were terminated by shock-freezing the tubules during perfusion. Precisely 30 s before shock-freezing, the K+ in the bathing solution was exchanged for Rb+. Intracellular element concentrations, including Rb+, were determined in freeze-dried cryosections of the tubules using energy-dispersive X-ray analysis. Increasing Na+ concentration in the perfusion solution caused significant rises in intracellular Na+ concentration and Rb+ uptake of principal cells. Principal cell Na+ and Rb+ concentrations were 7.8±0.9 and 7.0±0.8 mmol/kg wet weight respectively, when the perfusion solution was Na+-free, 10.1±0.7 and 11.6±0.6 mmol/kg wet weight with 30 mM Na+ in the perfusion solution, and 14.5±1.5 and 14.9 ±0.9 mmol/kg wet weight with 144 mM Na+ in the perfusion solution. In contrast, a comparable relationship between lumen Na+ concentration, intracellular Na+ concentration and basolateral Rb+ uptake was not seen in intercalated cells. These results support the notion that principal, but not intercalated, cells are involved in transepithelial Na+ absorption. In addition, the data demonstrate that apical Na+ entry and basolateral Na+/K+-AT-Pase activity are closely coupled in principal cells of the rabbit CCD. A rise in lumen Na+ concentration leads to increased Na+ entry and augmented intracellular Na+ concentration, which then secondarily stimulates active basolateral Na+/K+(Rb+) exchange.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00384350

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4

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The response of heat shock proteins 25 and 72 to ischaemia in different kidney zones (1997)

Schober, A. ; Müller, E. ; Thurau, K. ; [et al.]

Springer

Pflügers Archiv 434 (1997), S. 292-299

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ISSN: 1432-2013

Keywords: Key words Renal ischaemia ; Acute renal failure ; Heat shock proteins ; HSP25 ; HSP72 ; Renal cortex ; Renal outer medulla ; Renal inner medulla

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Induction of heat shock proteins (HSPs) following cell injury contributes to the protection of vital cell functions. It was, therefore, of interest to study the effects of transient renal ischaemia on the abundance and distribution of two HSPs, HSP25 and HSP72, in renal tissue using Western-blot techniques. Analyses were performed on the supernatant (HSP25, HSP72) and pellet (HSP25) of homogenates obtained from cortex (CX) and outer (OM) and inner (IM) medulla of the rat kidney immediately after 60 min of ischaemia followed by varying periods of reperfusion. Ischaemia of the left kidney caused HSP25 contents to decrease in CX, OM and IM by 73, 89 and 54% respectively, compared with the corresponding zones of the contralateral control kidney. This initial decrease in supernatant HSP25 was accompanied by an increased abundance of HSP25 in the pellet. Following reperfusion, HSP25 contents in the supernatant gradually increased in CX and OM, reaching, after 24 h, values that were 5.4- and 2.5-fold higher, respectively, than those in the control kidneys. After 7 or 14 days of reperfusion, HSP25 contents had not completely normalised in CX, but had reached control levels in OM. In IM, the HSP25 content remained below control throughout the entire reperfusion period. HSP72 (supernatant) was below the detection limit in the CX of the control kidney. Similar to the level of HSP25, that of HSP72 was also markedly lower in OM and IM immediately after ischaemia. The intrarenal distribution of HSP72 and the sequence of zonal changes in HSP72 contents were similar to those observed for HSP25. These results are compatible with the view that, during ischaemia and the initial reperfusion period, HSP25 migrates from the cytoplasmic compartment (supernatant) into the nucleus and/or associates with cytoskeletal structures. The observation that both HSP25 and HSP72 are transiently induced in CX and OM, but not in IM, may be explained by the fact that, while all kidney cells are exposed to ischaemic stress, only inner medullary cells experience a major postischaemic attenuation of osmotic stress.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050399

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5

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Inhibition of NaCl-induced heat shock protein 72 expression renders MDCK cells susceptible to high urea concentrations (1999)

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

Springer

Pflügers Archiv 437 (1999), S. 611-616

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ISSN: 1432-2013

Keywords: Key words Antisense ; Heat shock proteins ; Hypertonic stress ; MDCK cells ; Transfection ; Urea

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Exposure of Madin-Darby canine kidney (MDCK) cells to elevated extracellular NaCl concentrations is associated with increased heat shock protein 72 (HSP72) expression and improved survival of these pretreated cells upon exposure to an additional 600 mM urea in the medium. To establish a causal relationship between HSP72 expression and cell protection against high urea concentrations, two approaches to inhibit NaCl-induced HSP72 synthesis prior to exposure to 600 mM urea were employed. First, the highly specific p38 kinase inhibitor SB203580 was added (100 µM) to the hypertonic medium (600 mosm/kg H2O by NaCl addition, 2 days of exposure), which significantly reduced HSP72 mRNA abundance and HSP72 content. Survival of these cells after a 24-h urea treatment (600 mM) was markedly curtailed compared with appropriate controls. Second, a pcDNA3-based construct, containing 322 bases of the HSP72 open reading frame in antisense orientation and the geneticine resistance gene, was transfected into MDCK cells. Clones with strong inhibition of HSP72 synthesis and others which express the protein at normal levels (comparable to nontransfected MDCK cells) after heat shock treatment or hypertonic stress were established. When these transformants were subjected to hypertonic stress for 2 days prior to exposure to an additional 600 mM urea for 24 h, cell survival was significantly reduced in those clones in which HSP72 expression was strongly inhibited. These results provide further evidence for the protective function of HSP72 against high urea concentrations in renal epithelial cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050824

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6

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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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7

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Sodium entry routes in principal and intercalated cells of the isolated perfused cortical collecting duct (1990)

Sauer, Michael ; Flemmer, Andreas ; Thurau, Klaus ; [et al.]

Springer

Pflügers Archiv 416 (1990), S. 88-93

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ISSN: 1432-2013

Keywords: Cortical collecting duct ; Principal cells ; Intercalated cells ; Cell electrolyte concentrations ; Ouabain ; Amiloride ; Na-H exchange ; Electron microprobe analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Transmembrane sodium transport pathways were studied in principal and intercalated cells of the isolated perfused rabbit cortical collecting duct. Intracellular electrolyte concentrations in individual collecting duct cells were measured by electron microprobe analysis during blockage of basolateral Na-K-ATPase by ouabain and simultaneous inhibition of sodium entry across the apical and/or basolateral cell membrane. In principal cells the ouabain-induced rise in cell sodium concentration could only partially be blocked by amiloride (10−4mol/l) in the perfusion fluid. Amiloride (10−3mol/l) added to the bathing solution produced a further, significant reduction of sodium influx. In principal cells the ouabain-induced increase in sodium concentration was completely prevented by amiloride in the perfusion solution in combination with omission of sodium from the peritubular bathing solution. In intercalated cells ouabain caused a less pronounced increase in sodium concentration than in principal cells. Neither amiloride in the perfusate, nor amiloride in both bathing and perfusion solution, significantly reduced the ouabain-induced rise in intercalated cell sodium concentration. These results indicate that in principal cells amiloride-sensitive sodium channels constitute the predominant pathway for sodium entry across the apical cell membrane. In addition, substantial amounts of sodium enter principal cells across the basolateral cell membrane, probably via Na-H exchange. Finally, the data suggest that in intercalated cells sodium channels and the Na-H exchange are sparse or even absent.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00370227

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