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Bicarbonate reabsorption in the papillary collecting duct of rats (1981)

Ullrich, K. J. ; Papavassiliou, F.

Springer

Pflügers Archiv 389 (1981), S. 271-275

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ISSN: 1432-2013

Keywords: Adaptation, HCO 3 − transport ; Glycodiazine transport ; Metabolic acidosis ; Metabolic alkalosis ; Acetazolamide ; SITS ; Potassium deficiency

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Using the technique of capillary perfusion and simultaneous luminal stop flow microperfusion the reabsorption of bicarbonate and glycodiazine from the papillary collecting duct was evaluated. Starting with equal H14CO 3 − and3H-glycodiazine concentrations in the luminal and peritubular perfusates, the decrease in the luminal concentration at 10 and 45 s contact time was measured. In control rats with 25 mmol/l HCO 3 − in the perfusates the rate of HCO 3 − reabsorption calculated from the 10 s values was 0.34 nmol cm−2s−1. In acute metabolic acidosis, the rate of bicarbonate reabsorption was 2,3 times higher. In metabolic alkalosis, the rate of bicarbonate absorption dropped to 13% of the control values. Also the 45 s values of acidotic and alkalotic animals differed significantly from each other. With 25 mmol/l glycodiazine in both perfusates the rate of biffer reabsorption as calculated from the 10 s values was 0.76 nmol cm−2s−1 in control rats and did not deviate significantly from this value in acidotic and alkalotic animals. In control rats the bicarbonate reabsorption in % was the same, no matter whether both luminal and capillary perfusate contained 25 mmol/l bicarbonate or 10 mmol/l. In acidotic rats the rate of HCO 3 − reabsorption did not change significantly if all Na+ in the perfusates was replaced by choline (0.88 versus 0.79 nmol cm−2s−1 at 25 mmol/l HCO 3 − ). When in acidotic rats 0.1 mmol/l acetazolamide or 1 mmol/l SITS (4-acetamido-4′-isothiocyanatostilbene-2,2′-disulfonic acid) was added to both perfusates the rate of HCO 3 − reabsorption dropped by 75 and 58%, respectively. A potassium deficient diet for one week and DOCA administration had no influence on the bicarbonate reabsorption of rats which were on standard diet. The data indicate that (1) the buffer reabsorption from the papillary collecting duct is rather due to H+ ion secretion than to buffer anion reabsorption. (2) The adaptation to metabolic acidosis and alkalosis is specific for bicarbonate and not seen with glycodiazine. (3) Within the concentration range tested the HCO 3 − reabsorption rises linearly with the HCO 3 t- concentration. (4) The HCO 3 − reabsorption in the papillary collecting duct is Na+-independent, it can be inhibited by acetazolamide and SITS, but is not influenced by K+-deficient diet plus DOCA.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00584789

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Sodium reabsorption in the papillary collecting duct of rats (1979)

Ullrich, K. J. ; Papavassiliou, F.

Springer

Pflügers Archiv 379 (1979), S. 49-52

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ISSN: 1432-2013

Keywords: Renal collecting duct ; Na+ reabsorption ; Adrenalectomy ; Acetazolamide ; Amiloride

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Using the shrinking droplet method and simultaneous perfusion of the peritubular capillaries the isotonic reabsorption of Ringer's solution from the papillary collecting ducts was measured. Under control conditions the volume reabsorption from the papillary collecting ducts wasJ v±SE=2.6±0.1 · 10−5 cm3 · cm−2 · s−1. In rats which were on low Na+ diet,J v increased to 127%, and in adrenalectomized animals it decreased to 34% of the control value. Three hours after application of aldosterone in the adrenalectomized animalsJ v was partially restored to 63% of control rats. Amiloride 10−4 M, added to the luminal perfusate, produced a strong inhibition ofJ v (to 32% of control). Acetazolamide, 10−4 M, added to both perfusates, reducedJ v very strongly (to 40% of control), while omission of bicarbonate reduced it only to 77% of control. Acetazolamide, added to bicarbonate-free perfusates, did not result in a significant further reduction ofJ v. The data indicate that the Na+ reabsorption from the papillary collecting duct is controlled by mineralocorticoids. Furthermore, they suggest the existence of two transport mechanisms in the luminal cell membrane: 1. An amiloride-sensitive entry step and 2. an entry step via a Na+−H+-countertransport mechanism, the latter being less important.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00622904

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Reabsorption of monocarboxylic acids in the proximal tubule of the rat kidney (1982)

Ullrich, K. J. ; Rumrich, G. ; Klöss, S.

Springer

Pflügers Archiv 395 (1982), S. 212-219

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ISSN: 1432-2013

Keywords: SITS ; Probenecid ; Phloretin ; Acetazolamide ; Lactate ; Renal tubule

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The transport ofd-lactate across the epithelium of the late proximal convolution was investigated by two methods: 1. by measuring the zero net flux transtubular concentration difference (Δc tt,45s) and the permeability (P) ofd-lactate and calculating from both the transtubular active transport rate (J lac act ). 2. By measuring the 3.5 s efflux ofd-lactate from the tubular lumen, while blood was flowing through the capillaries. The 3.5 s efflux comprises two components, one going through the brush border (J lac bb ) and one going the paracellular pathway (J lac paracell =P lac·c lac lumen). Both,J lac act andJ lac bb ofd-lactate gave the sameK m 1.9 and 1.7 mmol/l and the same maximal transport rate 3.2 and 2.9 pmol cm−1 s−1. TheK i ofl-lactate tested againstJ lac act andJ lac bb ofd-lactate was also the same: 1.1 and 1.0 mmol/l. These data indicate that under our experimental conditions only the flux through the brush border seems to be rate limiting and thatd-lactate uses the same transport system asl-lactate. When Na+ was omitted from the perfusatesJ lac act disappeared completely, whileJ lac bb was reduced by 64%. These data reflect the Na+ dependence of thed-lactate transport through the brush border. Variation of intra-and extracellular pH by raisingpCO2, omitting HCO 3 − from the perfusates or adding acetazolamide had no effect on the transport ofd-lactate when α-ketoglutarate was used as fuel. However, when acetate was used as fuel, intracellular acidosis brought the reducedJ lac act back to the values obtained with α-ketoglutarate as fuel. It is suggested that this is an effect on a contraluminal transport step. Probenecid (5 mmol/l) and phloretin (0.25 mmol/l) inhibitedJ lac act significantly.J lac bb , however, was only inhibited by probenecid when acetate was used as fuel. These data indicate that both compounds act on thed-lactate exit at the contraluminal cell side, but that probenecid acts in addition at the luminal cell side. SITS (1 mmol/l) augmentedJ lac bb when acetate was used as fuel and is similar to the effect of lowering intracellular pH as described above. The SH reagents mersalyl (1.0 mmol/l) and maleolylglycine (1 mmol/l) did not influenceJ lac bb .

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00584812

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Phosphate transport in the proximal convolution of the rat kidney (1978)

Ullrich, K. J. ; Rumrich, G. ; Klöss, S.

Springer

Pflügers Archiv 377 (1978), S. 33-42

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ISSN: 1432-2013

Keywords: Renal tubule ; Phosphate transport ; Extracellular pH ; Intracellular pH ; Acetazolamide

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Inorganic phosphate (Pi) transport was evaluated using the standing droplet method with simultaneous microperfusion of the peritubular capillaries. To evaluate rather small differences in Pi transport and to eliminate the influence of tubular heterogeneity, the technique of crossed paired samples was applied. 1. In chronic PTX rat changing the luminal or both luminal and peritubular pH by varying the HCO 3 − -concentration between 4 and 50 mmol/l at constant 5% CO2 had no influence on Pi transport. 2. If, however, bicarbonate was omitted from the perfusate and 2 mmol/l phosphate (pH 7.4) was the only buffer, Pi transport was decreased from the control. It was, however, further reduced when the perfusates were gased with 5% CO2 i. e. the starting pH was 5.6. 3. When the solutions contained HEPES buffer (25 mmol/l), Pi transport at pH 8 was much larger than at pH 6.0. 4. Raising the CO2 pressure from 35 to 70 mm Hg did not change the Pi transport when both perfusates had a HCO 3 − -concentration of 25 mmol/l. It reduced, however, the Pi transport, when the luminal perfusate had only 4 mmol/l bicarbonate. 5. Lowering the CO2 pressure from 38 to 7.6 mm Hg did hardly change the Pi transport when the luminal perfusate contained 4 mmol/l bicarbonate. It lowered, however, the Pi transport significantly when the luminal perfusate had 25 mmol/l bicarbonate. 6. Acetazolamide, 10−4 M, lowered the Pi transport when the luminal perfusate contained 4 or 25 mmol/l bicarbonate. At 4 mmol/l luminal HCO 3 − , raising thepCO2 to 228 mmol/l depressed Pi transport even more. At 25 mmol/l luminal bicarbonate, raising thepCO2 from 38 to 114 mm Hg reversed the acetazolamide inhibition of the Pi transport almost completely. The data indicate that luminal acidosis and intracellular alkalosis inhibits the transtubular Pi transport. A shift of the intracellular pH to a more alkaline value seems to be responsible for the inhibition of Pi transport by acetazolamide, while omission of buffer from the perfusate inhibits Pi transport by effecting an acidic luminal pH.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00584371

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