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Differential effects of ADH on sodium, chloride, potassium, calcium and magnesium transport in cortical and medullary thick ascending limbs of mouse nephron (1988)

Wittner, M. ; Stefano, A. ; Wangemann, P. ; [et al.]

Springer

Pflügers Archiv 412 (1988), S. 516-523

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ISSN: 1432-2013

Keywords: ADH ; Transepithelial ion net fluxes ; Na+, Cl−, K+, Ca2+ and Mg2+ transport ; Electron microprobe ; Mouse kidney ; Cortical and medullary thick ascending limb of Henle's loop ; In vitro microperfusion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The effect of antidiuretic hormone (arginine vasopressin, AVP) on transepithelial Na+, Cl−, K+, Ca2+ and Mg2+ net transports was investigated in medullary (mTAL) and cortical (cTAL) segments of the thick ascending limb (TAL) of mouse nephron, perfused in vitro. Transepithelial net fluxes (J Na +,J Cl −,J K +,J Ca 2+,J Mg 2+) were determined by electron probe analysis of the collected tubular fluid. Transepithelial potential difference (PDte) and transepithelial resistance (Rte) were measured simultaneously. cTAL segments were bathed and perfused with isoosmolal, HCO 3 − containing Ringer solutions, mTAL segments were bathed and perfused with isoosmolal HCO 3 − free Ringer solutions. In cTAL segments, AVP (10−10 mol·l−1) significantly increasedJ Mg 2+ andJ Ca 2+ from 0.39±0.08 to 0.58±0.10 and from 0.86±0.13 to 1.19±0.15 pmol·min−1 mm−1 respectively. NeitherJ Na + norJ Cl −, (J Na +: 213±30 versus 221±28 pmol·min−1 mm−1,J Cl −: 206±30 versus 220±23 pmol·min−1 mm−1) nor PDte (13.4±1.3 mV versus 14.1±1.9 mV) or Rte (24.6±6.5Ω cm2 versus 22.6±6.4Ω cm2) were significantly changed by AVP. No significant effect of AVP on net K+ transport was observed. In mTAL segments, Mg2+ and Ca2+ net transports were close to zero and AVP (10−10 mol·l−1) elicited no effect. However NaCl net reabsorption was significantly stimulated by the hormone,J Na + increased from 107±33 to 148±30 andJ Cl − from 121±33 to 165±32 pmol·min−1 mm−1. The rise inJ NaCl was accompanied by an increase in PDte from 9.0±0.7 to 13.5±0.9 mV and a decrease in Rte from 14.4±2.0 to 11.2±1.7 Ω cm2. No K+ net transport was detected, either under control conditions or in the presence of AVP. To test for a possible effect of HCO 3 − on transepithelial ion fluxes, mTAL segments were bathed and perfused with HCO 3 − containing Ringer solutions. With the exception ofJ Ca 2+ which was significantly different from zero (J Ca 2+: 0.26±0.06 pmol·min−1 mm−1), net transepithelial fluxes of Na+, Cl−, K+ and Mg2+ were unaffected by HCO 3 − . In the presence of AVP,J Mg 2+ andJ Ca 2+ were unaltered whereasJ NaCl was stimulated to the same extent as observed in the absence of HCO 3 − . In conclusion our results indicate heterogeneity of response to AVP in cortical and medullary segments of the TAL segment, since AVP stimulates Ca2+ and Mg2+ reabsorption in the cortical part and Na+ and Cl− reabsorption in the medullary part of this nephron segment.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00582541

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Stimulation by glucagon and PTH of Ca and Mg reabsorption in the superficial distal tubule of the rat kidney (1985)

Bailly, C. ; Roinel, N. ; Amiel, C.

Springer

Pflügers Archiv 403 (1985), S. 28-34

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ISSN: 1432-2013

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The effects of glucagon and PTH on electrolyte reabsorption in the distal tubule were investigated in rats deprived of vasopressin, calcitonin, PTH, and glucagon. Micropunctures of distal tubule, at a late and an early site of a same nephron, have been performed in 23 rats, nine control, seven infused with glucagon (5 ng·min−1·100 g−1 b.w.) and seven with PTH (5 mU·min−1·100 g−1 b.w.). The Ca and Mg reabsorptive capacity of the distal segment was increased by glucagon and by PTH. Moreover, fractional Na and Cl reabsorption was significantly higher than in control during PTH administration. A K secretion appeared during the administration of both hormones. No phosphate net transport was observed in any group. Finally, the data presented here, together with those previously reported, indicate that the increase of Ca and Mg renal reabsorption observed with glucagon and PTH results from an effect located in both Henle's loop, where the bulk of Ca and Mg is reabsorbed, and the distal tubule.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00583277

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Effects of glucagon on Na+, Cl−, K+, Mg2+ and Ca2+ transports in cortical and medullary thick ascending limbs of mouse kidney (1989)

Stefano, A. ; Wittner, M. ; Nitschke, R. ; [et al.]

Springer

Pflügers Archiv 414 (1989), S. 640-646

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ISSN: 1432-2013

Keywords: Glucagon ; Transepithelial ion net fluxes ; Na+, Cl−, K+, Ca2+, Mg2+ transport ; Electron microprobe ; Mouse kidney ; In vitro microperfusion ; Cortical and medullary thick ascending limb of Henle's loop ; In vivo micropuncture study

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The effects of glucagon on transepithelial Na+, Cl−, K+, Ca2+ and Mg2+ net fluxes were investigated in isolated perfused cortical (cTAL) and medullary (mTAL) thick ascending limbs of Henle's loop of the mouse nephron. Transepithelial ion net fluxes (J Na +,J Cl −,J K +,J Ca 2+,J Mg 2+) were determined by electron probe analysis of the collected tubular fluid. Simultaneously the transepithelial voltage (PDte) and the transepithelial resistance (R te) were recorded. In cTAL-segments (n=8), glucagon (1.2×10−8 mol · l−1) stimulated significantly the reabsorption of Na+, Cl−, Ca2+ and Mg2+∶J Na + increased from 204±20 to 228±23 pmol · min−1 · mm−1,J Cl − from 203±18 to 234±21 pmol · min−1 · mm−1,J Ca 2+ from 0.52±0.13 to 1.34±0.30 pmol · min−1 · mm−1 andJ Mg 2+ from 0.51±0.08 to 0.84±0.08 pmol · min−1 · mm−1.J K+ remained unchanged: 3.2±1.3 versus 4.0±1.9 pmol · min−1 · mm−1. Neither PDte (16.3±1.5 versus 15.9±1.4 mV) norR te (22.5±3.0 versus 20.3±2.6 Ωcm2) were changed significantly by glucagon. However, in the post-experimental periods a significant decrease in PDte and increase inR te were noted. In mTAL-segments (n=9), Mg2+ and Ca2+ transports were close to zero and glucagon elicited no significant effect. The reabsorptions of Na+ and Cl−, however, were strongly stimulated:J Na + increased from 153±17 to 226±30 pmol · min−1 · mm−1 andJ Cl − from 151±23 to 243±30 pmol · min−1 · mm−1. The rise in NaCl transport was accompanied by an increase in PDte from 10.3±1.1 to 12.3±1.2 mV and a decrease inR te from 19.1±2.7 to 17.8±2.0 Ωcm2. No net K+ movement was detectable either in the absence or in the presence of glucagon. A micropuncture study carried out in hormone-deprived rats indicated that glucagon stimulates Na+, Cl−, K+, Mg2+ and Ca2+ reabsorptions in the loop of Henle. In conclusion our data demonstrate that glucagon stimulates NaCl reabsorption in the mTAL segment and to a lesser extent in the cTAL segment whereas it stimulates Ca2+ and Mg2+ reabsorptions only in the cortical part of the thick ascending limb of the mouse nephron. These data are in good agreement with, and extend, those obtained in vivo on the rat with the hormone-deprived model.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00582129

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