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  • 1
    Digitale Medien
    Digitale Medien
    Einfluß von Calciumionen und antidiuretischem Hormon auf den transtubulären Natriumtransport in der Rattenniere (1969)
    Springer
    Pflügers Archiv 310 (1969), S. 369-376 
    Details
    ISSN: 1432-2013
    Schlagwort(e): Nephron ; Sodium Transport ; Calcium Ions ; Antidiuretic Hormone ; Nierentubuli ; Natriumtransport ; Calciumionen ; Antidiuretisches Hormon
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Medizin
    Beschreibung / Inhaltsverzeichnis: Zusammenfassung An proximalen Tubuli und medullären Sammelrohren von Ratten wurde der isotone Natriumtransport ΆNa iso und die Gleichgewichtskonzentrationsdifferenz Δc Na bei Nettosubstanzfluß und Nettovolumenfluß Null gemessen. Die peritubulären Capillaren waren bei diesen Messungen künstlich durchströmt, und zwar in der ersten Serie mit einer Calcium-freien Lösung bzw. einer Lösung, die 3 mÄq Ca++/l enthielt, in einer zweiten Serie mit einer Lösung, die kein ADH bzw. 5 mE/l ADH enthielt. Zugabe von ADH oder Weglassen von Calcium aus dem Perfusat hatten keinen Einfluß auf den isotonen Natriumtransport. Die Natrium-Gleichgewichtskonzentration bei Nettosubstanzfluß Null war jedoch stark erniedrigt. Die Befunde sprechen dafür, daß bei Fehlen von Calcium oder Zugabe von ADH die Permeabilität für Natriumionen erhöht ist, daß aber im Gegensatz zum Verhalten von Amphibienhäuten der aktive Natriumtransport unbeeinflußt bleibt.
    Notizen: Summary Isotonic sodium transport, ΆNa iso, and the transtubular concentration difference, Δc Na, at equilibrium under conditions of zero net solvent and solute fluxes were measured in the proximal tubules and medullary collecting ducts of rats. Peritubular capillaries were simultaneously perfused, in the first group of experiments with a solution containing no Ca++ or 3 mEq/l of Ca++, and in the second group with a solution which contained either no ADH or 5 mU/l of ADH. Addition of ADH or omission of Ca++ from the capillary perfusate did not affect isotonic sodium transport. The equilibrium concentration difference of sodium, Δc Na, was, however, greatly reduced under the same conditions. The results indicate that in the absence of Ca++, or in the presence of ADH, the permeability for sodium is increased, but that in contradistinction to the behaviour of amphibian skins, active sodium transport remains unaffected.
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/BF00587245
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  • 2
    Digitale Medien
    Digitale Medien
    The role of bicarbonate and other buffers on isotonic fluid absorption in the proximal convolution of the rat kidney (1971)
    Springer
    Pflügers Archiv 330 (1971), S. 149-161 
    Details
    ISSN: 1432-2013
    Schlagwort(e): Proximal Convolution ; Isotonic Reabsorption ; Bicarbonate Buffer ; Lipid Soluble Buffers ; Sodium Transport
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Medizin
    Notizen: Summary The fluid reabsorption from the proximal convolution of the rat kidney was measured with the Gertz shrinking droplet technique. Simultaneously, the peritubular capillaries were perfused with artificial solutions. In some experimental series, fluid from the shrinking droplet was withdrawn and analysed for Cl−, Na+, and osmolality so that the transtubular transport of Na+, Cl−, and HCO 3 − could be calculated. Capillary perfusate in some experiments was also withdrawn and its pH was measured. The following results were obtained: 1. With increasing concentration of HCO 3 − in the capillary perfusate, the transtubular water, sodium, chloride, and bicarbonate reabsorption increased. 2. The sulfonamide buffers sulfamerazine and glycodiazine (Redul®), which easily penetrate the tubular wall, could, in equimolar concentrations, substitute totally for the bicarbonate buffer in promoting isotonic fluid absorption. 3. Butyrate, propionate, and acetate were also effective; pyruvate, lactate, and paraaminohippurate, however, were not. 4. The effect of HCO 3 − and glycodiazine on isotonic absorption was shown to depend exclusively on the concentration of the buffer anion and not on the concentration of undissociated acid or pH. From these data it is suggested that for proximal isotonic absorption of water, sodium, and chloride, the reabsorption of buffer anions via H+ secretion and nonionic diffusion may be essential. The H+ secretion or the buffer anion absorption across the luminal cell wall may secondarily influence the active Na+ transporting mechanism located at the basal cell site either by a luminal H+−Na+ exchange mechanism or by a lyotropic effect which would increase the Na+ permeability of the luminal cell site. Thereby more Na+ would be delivered to the Na+ pumping site and the rate of Na+ pumping would be augmented.
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/BF00643031
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  • 3
    Digitale Medien
    Digitale Medien
    Bisubstrates: substances that interact with both, renal contraluminal organic anion and organic cation transport systems (1993)
    Springer
    Pflügers Archiv 425 (1993), S. 300-312 
    Details
    ISSN: 1432-2013
    Schlagwort(e): Electron-attracting groups ; Electron-donating groups ; Hydrophobicity ; Corticosteroids ; Androstene analogues
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Medizin
    Notizen: Abstract In order to test what chemical structure is required for a substrate to interact not only with the contraluminal organic anion (p-aminohippurate, PAH) transporter, but also with the organic cation (N 1-methylnicotinamide, NMeN, or tetraethylammonium, TEA) transporter, the stop-flow peritubular capillary perfusion method was applied and app. K i values were evaluated. Zwitterionic hydrophobic dipeptides not only interact with PAH but also with NMeN transport although with lower inhibitory potency (K i,PAH=0.2–1.4; K i,NMeN 614 mmol/l). Amongst the zwitterionic cephalosporins, which all inhibit PAH transport, the amino cephalosporin analogue cefadroxil was identified to interact also with NMeN transport (K i,PAH = 3.0, K i,NMeN=11.2 mmol/l). All Zwitterionic naphthyridine and oxochinoline gyrase inhibitors tested inhibit NMeN transport with app. K i,NMeN values between 1.2 mmol/l and 4.7 mmol/l; the naphthyridine analogues show a good inhibitory potency against PAH transport (K i,PAH ≈ 0.4 mmol/l), the piperazine-containing quinolone analogues have a moderate inhibitory potency (K i,PAH=1.1–2.5 mmol/l) and the piperazine-containing pipemidic acid did not inhibit PAH transport at all. Zwitterionic thiazolidine carboxylate phosphamides also interact with both transporters (app. K i,PAH ≈ 3.0; app. K i,NMeN ≈ 18.0 mmol/l). The nonionizable oxo- and hydroxy-group-containing corticosteroid hormones also interact with the two transporters. (a) An OH group in position 21 is necessary for interaction with the PAH transporter, but not for interaction with the TEA transporter. (b) Introduction of an OH group in position 17α abolishes interaction with the TEA transporter, but has different effects with the PAH transporter. (c) Introduction of an OH group in position 6 abolishes interaction with both, the PAH and the TEA transporter. (d) A change of the side-group in position 11 of corticosterone from -OH to -H to=O enhances interaction with the PAH transporter but has no effect on the interaction with the TEA transporter. Nonionizable 4- or 5-androstene analogues inhibit both transporters with app. K i between 0.16 mmol/l and 0.64 mmol/l, if the steroids are soluble in a concentration greater than 1 mmol/l. Nonionizable oxazaphosphorins with more than one chloroethyl group interact with the PAH transporter with app. K i between 0.84mmol/l and 4.9mmol/l and with the NMeN transporter with app. K i between 3.2 mmol/l and 18.7 mmol/l. Thus a substrate interacts with both transporters if it is sufficiently hydrophobic, possesses acidic and/or electron-attracting plus basic and/or electron-donating groups, or possesses several electron-attracting nonionizable groups (O, OH, Cl). A certain spatial arrangement of the interacting groups seems to be necessary.
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/BF00374180
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  • 4
    Digitale Medien
    Digitale Medien
    Natriumtransport in den proximalen Tubuli und den Sammelrohren bei Variation der Natriumkonzentration im umgebenden Intterstitium (1969)
    Springer
    Pflügers Archiv 310 (1969), S. 354-368 
    Details
    ISSN: 1432-2013
    Schlagwort(e): Perfusion of Peritubular Capillaries ; Water Reabsorption ; Sodium Transport ; Proximal Convolution ; Collecting Duct ; peritubuläre Capillarperfusion ; Wasserresorption ; Natriumtransport ; proximales Konvolut ; Sammelrohre
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Medizin
    Beschreibung / Inhaltsverzeichnis: Zusammenfassung An Ratten wurden Mikropunktionsuntersuchungen am proximalen Tubulus und am Sammelrohr bei Durchblutung der peritubulären Capillaren bzw. Vasa recta sowie bei künstlicher Perfusion dieser Blutgefäße durchgeführt. In Abhängigkeit von der Höhe der interstitiellen Natriumkonzentration wurden der Nettonatriumtransport (ΆNa iso) bei gleicher Natriumkonzentration zu beiden Seiten der Tubuluswand und die Gleichgewichtskonzentrationsdifferenz (Δc Na) bei fehlendem Nettovolumen- und Nettosubstanzfluß gemessen. Bei Variation der Natriumkonzentration im Gewebe durch Perfusion der peritubulären Capillaren mit 155 bzw. 300 mÄq/l Na änderten sich weder ΆNa iso noch Δc Na für den proximalen Tubulus (ΆNa iso 8,4 bzw. 7,9·10−5 μÄq · mm−2 · sec−1; Δc Na 24 bzw. 24 mÄq/l). Veränderung der Natriumkonzentration im Blut durch Infusion hypertoner NaCl Lösung oder Peritonealdialyse mit isotoner Mannitlösung führten zu prinzipiell gleichen Ergebnissen. Bei Perfusion der Vasa recta mit Lösungen, die 145 und 300 mÄq/l Natrium entheilten, blieben ΆNa iso wie Δc Na über die Sammelrohrwand ebenfalls konstant (ΆNa iso 4,1 bzw. 4,1·10−5 μÄq · mm−2 · sec−1; Δc Na 98 bzw. 104 mÄq/l). Proximale Tubuli und Sammelrohre verhalten sich demnach bei Variation der interstitiellen Natriumkonzentration gleich. Da die Wasserresorption aus den Sammelrohren von dem durch Gegenstrommultiplikation erzeugten Natriumkonzentrationsanstieg im Markinterstitium abhängt, die Natriumresorption aus den Sammelrohren aber wie die vorliegenden Befunde zeigen von eben dieser Natriumkonzentration unabhängig ist, ist dem Warmblüterorganismus die Möglichkeit gegeben, Natrium- und Wasserresorption unabhängig voneinander zu variieren. Die Natrium- und Wasserresorption aus den Sammelrohren werden jedoch beide durch den Gehalt der Sammelrohrflüssigkeit an permeablen Nichtelektrolyten, wie z. B. Harnstoff, beeinflußt.
    Notizen: Summary Micropuncture experiments were performed on proximal tubules and collecting ducts of rat kidneys with and without artificial perfusion of surrounding capillaries or vasa recta respectively. Net sodium flux (ΆNa iso) was estimated under conditions of varying but equal sodium concentrations on both sides of the tubular wall. The transtubular wall equilibrium concentration difference of sodium (Δc Na) was also measured in these nephron segments under conditions of zero volume and solute fluxes. In the proximal tubule ΆNa iso of 8.4 and 7.9×10−5 μeq × mm−2 × sec−1 at sodium concentrations of 155 and 300 meq/l in the perfusion fluid and Δc Na of 24 and 24 meq/l respectively did not vary significantly. Variations of sodium concentrations in blood produced by hypertonic saline infusion or peritoneal dialysis with mannitol resulted in essentially similar values of ΆNa iso and Δc Na. In the collecting ducts also ΆNa iso and Δc Na remained uninfluenced by induced variations in sodium concentrations of the perfusion fluid. ΆNa iso at sodium concentration of 145 and 300 meq/l in the perfusion fluid of vasa recta was 4.1 and 4.1×10−5 μeq × mm−2 × sec−1 respectively and Δc Na was 98 and 104 meq/l respectively. Water reabsorption in the collecting ducts depends on the increase of sodium concentration produced in the medulla by the countercurrent multiplier system. The results represented here indicate that, in mammals sodium reabsorption is independent from the sodium concentration of the interstitial fluid. Therefore the sodium reabsorption and the water reabsorption can be varied independently from each other. Both, sodium and water reabsorption in the collecting ducts are however dependent upon the concentrations of permeable nonelectrolytes such as urea in the collecting duct fluid.
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/BF00587244
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  • 5
    Digitale Medien
    Digitale Medien
    Contraluminal p-aminohippurate transport in the proximal tubule of the rat kidney (1991)
    Springer
    Pflügers Archiv 418 (1991), S. 371-382 
    Details
    ISSN: 1432-2013
    Schlagwort(e): Corticosteroids ; Membrane transport ; Diffusion of corticosteroids ; Renal transport of p-aminohippurate and corticosteroids
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Medizin
    Notizen: Abstract Using the stop-flow peritubular capillary microperfusion method contraluminal transport of corticosteroids was investigated (a) by determining the inhibitory potency (apparent K i values) of these compounds against p-aminohippurate (PAH), dicarboxylate (succinate) and sulphate transport and (b) by measuring the transport rate of radiolabelled corticosteroids and its inhibition by probenecid. Progesterone did not inhibit contraluminal PAH influx but its 17α- and 6β-hydroxy derivatives inhibited with an app. Ki of 0.36 mmol/l. Introduction of an OH group in position 21 of progesterone, to yield 11-deoxycorticosterone, augments the inhibitory potency considerably (app. K i, PAH of 0.07 mmol/l). Acetylation of the OH-group in position 21 of 11deoxycorticosterone, introduction of an additional hydroxy group in position 17 α to yield 11-deoxycortisol or in position 11 to yield corticosterone brings the app. K i, PAH back again into the range of 0.2–0.4 mmol/l. Acetylation of corticosterone or introduction of a third OH group to yield cortisol does not change the inhibitory potency, but, omission of the 21-OH group or addition of an OH group in the 6β position reduces or abolishes it. Cortisol and its derivatives prednisolone, dexamethasone and cortisone exert similar inhibitory potencies (app. K i, PAH 0.12–0.27 mmol/l). But again, omission of the 21-OH group in cortisone or addition of a 6β-OH group reduces or even abolishes the inhibitory potency against PAH transport. The interaction of corticosterone was not changed when 11β, 18-epoxy ring (aldosterone) was formed. On the other hand, the interaction was considerably augmented if the 11-hydroxy group was changed to an oxo group in 11-dehydrocorticosterone (app. K i, PAH 0.02 mmol/l). When the A ring of corticosterone is saturated and reduced to 3α, 11β-tetrahydrocorticosterone the inhibitory potency is not changed very much. But if more than four OH or oxo groups are on the pregnane skeleton or if the OH in position 21 is missing, the inhibitory potency decreases drastically (app. Ki, PAH 0.7–1.7 mmol/l). Introduction of a 21-ester sulphate into corticosterone, cortisol and cortisone does not change app. K i, PAH very much. Glucuronidation, however, reduces it (app. Ki, PAH ≈ 1.2 mmol/l). None of the tested corticosteroids interacts, in concentrations applicable, with dicarboxylate transport and only the sulphate esters interact with sulphate transport. Radiolabelled cortisol, d-aldosterone, 11-dehydrocorticosterone, and corticosterone are rapidly transported into proximal tubular cells. With the latter three compounds no sign of saturation and no transport inhibition with probenecid could be seen. Only with cortisol was a shift toward saturation observed. In addition, cortisol transport could be inhibited by probenecid. The data indicate that corticosteroids interact with the contraluminal renal PAH transporter, whereby hydroxylation in position 21 augments, and hydroxylation in the 6β or 3α, 17β position reduces interaction. However, as tested so far, simple diffusion seems to prevail when corticosteroids cross the cell membrane. Sulphation makes corticosteroids also a substrate for the sulphate transporter.
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/BF00550875
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